Transmission Setting Selection

Organization Name

qualcomm incorporated

Inventor(s)

Vladimir Aparin of San Diego CA (US)

Aidin Bassam of Oceanside CA (US)

Nicholas Michael Carbone of San Diego CA (US)

Transmission Setting Selection - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240297670 titled 'Transmission Setting Selection

The abstract describes an apparatus for transmission setting selection, including a wireless interface device with a communication processor and a radio-frequency front-end. The communication processor provides a signal, which is accepted by the radio-frequency front-end. The front-end includes an amplifier that amplifies the signal based on amplifier settings, which can be adjusted by the device in response to changes in output power while keeping the gain unchanged.

• Wireless interface device with communication processor and radio-frequency front-end
• Communication processor provides a signal
• Radio-frequency front-end accepts and amplifies the signal based on settings
• Device adjusts amplifier settings in response to changes in output power
• Gain remains unchanged during adjustments

Potential Applications: - Wireless communication systems - IoT devices - Telecommunications equipment

Problems Solved: - Efficient transmission setting selection - Maintaining signal quality during power changes

Benefits: - Improved signal transmission - Enhanced performance in varying power conditions

Commercial Applications: - Mobile devices - Satellite communication systems - Networking equipment

Questions about the technology: 1. How does the device ensure signal quality while adjusting amplifier settings? 2. What are the potential implications of this technology on wireless communication systems?

Frequently Updated Research: - Ongoing studies on optimizing transmission settings in wireless devices.

Original Abstract Submitted

an apparatus is disclosed for transmission setting selection. in an example aspect, an apparatus includes a wireless interface device with a communication processor and a radio-frequency front-end. the communication processor is configured to provide a signal. the radio-frequency front-end is coupled to the communication processor and configured to accept the signal. the radio-frequency front-end includes an amplifier configured to amplify the signal based on one or more amplifier settings. the wireless interface device is configured to adjust the one or more amplifier settings responsive to an output power being changed with a gain being unchanged.