POWER STATE TRANSITION FOR WIRELESS TRANSCEIVER

Organization Name

TEXAS INSTRUMENTS INCORPORATED

Inventor(s)

Taraka Rama Chandra Reddy Kambham of Freising (DE)

Ariton Xhafa of Plano TX (US)

Tahar Allag of Irving TX (US)

Mario Mlynek of Munich (DE)

POWER STATE TRANSITION FOR WIRELESS TRANSCEIVER - A simplified explanation of the abstract

This abstract first appeared for US patent application 18604687 titled 'POWER STATE TRANSITION FOR WIRELESS TRANSCEIVER

Simplified Explanation: The patent application describes a system with a battery pack, a battery management controller, and a battery monitor that communicates wirelessly to monitor battery parameters and voltage levels.

• The system includes a battery pack with multiple modules connected by a busbar.
• A battery management controller with a wireless transceiver receives data from the battery monitor.
• The battery monitor tracks parameters of the battery modules and communicates with the controller wirelessly.
• A busbar voltage circuit monitors the voltage across the busbar and can trigger the wireless transceiver to enter a higher-power state if the voltage exceeds a threshold.

Key Features and Innovation:

• Wireless communication between battery monitor and management controller.
• Monitoring of battery module parameters and busbar voltage.
• Automatic adjustment of wireless transceiver power based on busbar voltage levels.

Potential Applications: This technology can be used in electric vehicles, renewable energy storage systems, and other applications requiring efficient battery management.

Problems Solved:

• Monitoring battery parameters wirelessly.
• Ensuring optimal performance and safety of battery modules.
• Efficient communication between battery components.

Benefits:

• Improved battery management and monitoring.
• Enhanced safety and performance of battery systems.
• Remote access to battery data for maintenance and diagnostics.

Commercial Applications: Potential commercial applications include electric vehicle manufacturing, renewable energy storage systems, and smart grid technologies.

Questions about Battery Monitoring System: 1. How does the wireless communication between the battery monitor and management controller improve battery management? 2. What are the specific parameters monitored by the battery monitor and how do they impact battery performance?

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Original Abstract Submitted

A system includes a battery pack having a first battery module, a second battery module, and a busbar that couples the first and second battery modules; a battery management controller having a first wireless transceiver; and a battery monitor coupled to the first battery module and to the busbar. The battery monitor includes monitoring circuitry configured to receive a first indication of a parameter of the first battery module; a second wireless transceiver configured to provide the first indication to the battery management controller via a wireless connection to the first wireless transceiver; and a busbar voltage circuit configured to receive a second indication of a voltage across the busbar, and, responsive to the second indication being greater than a voltage threshold, provide a first signal to the second wireless transceiver to cause the second wireless transceiver to be in a higher-power state.