POWER REBALANCING IN A MAXIMUM PERMISSIBLE EXPOSURE EVENT

Organization Name

QUALCOMM Incorporated

Inventor(s)

Fang Yuan of Beijing (CN)

Yan Zhou of San Diego CA (US)

Tao Luo of San Diego CA (US)

POWER REBALANCING IN A MAXIMUM PERMISSIBLE EXPOSURE EVENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 17758070 titled 'POWER REBALANCING IN A MAXIMUM PERMISSIBLE EXPOSURE EVENT

Simplified Explanation

The patent application describes an apparatus that receives scheduling transmissions on two different data channels. When there is a radio frequency (RF) exposure event, the apparatus reduces the transmit power for the first data channel transmission using a specific beam. After the RF exposure event, the apparatus increases the transmit power for the second data channel transmission using a different beam. The apparatus also sends an RF exposure report to the base station regarding either the first data channel or the first beam.

• The apparatus receives scheduling transmissions on two data channels.
• It reduces transmit power for the first data channel transmission during an RF exposure event.
• It increases transmit power for the second data channel transmission after the RF exposure event.
• The apparatus uses different beams for the two data channels.
• It sends an RF exposure report to the base station.

Potential Applications

This technology can be applied in various wireless communication systems, such as cellular networks, Wi-Fi networks, or satellite communication systems.

Problems Solved

1. Minimizing RF exposure: The apparatus reduces transmit power during an RF exposure event, ensuring lower exposure levels for users. 2. Efficient data transmission: By using different beams and adjusting transmit power, the apparatus optimizes data transmission on multiple data channels.

Benefits

1. Improved user safety: Reducing transmit power during RF exposure events helps minimize potential health risks associated with high RF exposure. 2. Enhanced communication performance: By adjusting transmit power and using different beams, the apparatus can optimize data transmission on multiple channels, improving overall communication performance.

Original Abstract Submitted

An apparatus receives at least one scheduling grant scheduling transmission on a first data channel and further scheduling a second data channel. The apparatus reduces a transmit power for the transmission on the first data channel with a first beam when a radio frequency (RF) exposure event occurs. The apparatus increases, after the RF exposure event occurs, a transmit power for the transmission on the second data channel with a second beam. The apparatus transmits an RF exposure report associated with at least one of the first data channel or the first beam to the base station.