Intel corporation (20240222728). POWER MANAGEMENT FOR BATTERY GROUP simplified abstract
Contents
- 1 POWER MANAGEMENT FOR BATTERY GROUP
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 POWER MANAGEMENT FOR BATTERY GROUP - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Prior Art
- 1.11 Frequently Updated Research
- 1.12 Questions about Battery Management Systems
- 1.13 Original Abstract Submitted
POWER MANAGEMENT FOR BATTERY GROUP
Organization Name
Inventor(s)
Naoki Matsumura of San Jose CA (US)
Raghavendra R. Rao of Bangalore, Karnataka (IN)
Jagadish Vasudeva Singh of Bangalore, Karnataka (IN)
Ming-Chia Lee of New Taipei City (TW)
POWER MANAGEMENT FOR BATTERY GROUP - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240222728 titled 'POWER MANAGEMENT FOR BATTERY GROUP
Simplified Explanation
The system described in the patent application includes components associated with a power load, a battery group, and control circuitry. The battery group consists of multiple battery packs connected in a series. The control circuitry monitors the voltage level of each battery pack during discharge to the power load, determines discharge capabilities for the packs, and reduces the power load if it exceeds the lowest discharge capability of the battery group.
- System components include power load, battery group, and control circuitry
- Battery group comprises multiple battery packs in series
- Control circuitry monitors and manages discharge of battery packs to power load
- Power load is reduced if it exceeds lowest discharge capability of battery group
Key Features and Innovation
- Monitoring and managing discharge of multiple battery packs in a series connection
- Dynamic adjustment of power load based on discharge capabilities of battery packs
- Efficient utilization of battery group to prevent overload and damage
Potential Applications
The technology can be applied in various systems requiring efficient power management, such as electric vehicles, renewable energy systems, and portable electronic devices.
Problems Solved
- Prevents overload and damage to battery packs
- Ensures optimal utilization of battery group
- Enhances safety and efficiency of power systems
Benefits
- Extended battery life
- Improved system reliability
- Enhanced safety measures
Commercial Applications
The technology can be utilized in electric vehicles, solar power systems, and consumer electronics to optimize power usage, improve battery performance, and enhance overall system efficiency.
Prior Art
Readers interested in prior art related to this technology can explore patents and research papers on battery management systems, power load monitoring, and series battery connections.
Frequently Updated Research
Stay updated on the latest advancements in battery management systems, power load optimization, and energy storage technologies to enhance the efficiency and performance of power systems.
Questions about Battery Management Systems
How does the control circuitry monitor the voltage level of each battery pack?
The control circuitry uses sensors to measure the voltage of individual battery packs in the series connection.
What are the potential risks of exceeding the lowest discharge capability of the battery group?
Exceeding the lowest discharge capability can lead to reduced battery life, overheating, and potential damage to the battery packs.
Original Abstract Submitted
in an embodiment, a system may include at least one system component associated with a power load, a battery group, and control circuitry. the battery group may include multiple battery packs connected in a series connection. the control circuitry may: monitor a voltage level of each battery pack in the battery group during a discharge to the power load of the at least one system component; determine discharge capabilities for the battery packs in the battery group; and in response to a determination that the power load of the at least one system component exceeds a lowest discharge capability of the plurality of battery packs in the battery group, reduce the power load of the at least one system component below the lowest discharge capability of the plurality of battery packs in the battery group.