PHASED ARRAY ANTENNA ARCHITECTURE

Organization Name

QUALCOMM Incorporated

Inventor(s)

Yunfei Feng of San Diego CA (US)

Li Liu of San Diego CA (US)

Wu-Hsin Chen of San Diego CA (US)

Abdellatif Bellaouar of Richardson TX (US)

Chuan Wang of San Diego CA (US)

Vinod Panikkath of San Diego CA (US)

Gurkanwal Singh Sahota of Rancho Santa Fe CA (US)

Kang Yang of San Diego CA (US)

Shrenik Patel of San Diego CA (US)

PHASED ARRAY ANTENNA ARCHITECTURE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18082668 titled 'PHASED ARRAY ANTENNA ARCHITECTURE

The abstract of this patent application describes a radio system architecture that includes a receiver with multiple sub-arrays in a phased array, capable of performing carrier aggregation (CA) and multiple input multiple output (MIMO) signal processing. The system also provides independent beam management for multiple radio frequency (RF) signals received at each sub-array, with a data processor extracting information regarding wireless communications.

• Receiver with multiple sub-arrays in a phased array
• Capable of performing carrier aggregation (CA) and multiple input multiple output (MIMO) signal processing
• Independent beam management for multiple RF signals at each sub-array
• Data processor extracts information on wireless communications

Potential Applications: - Advanced wireless communication systems - 5G networks - Satellite communication systems

Problems Solved: - Efficient management of multiple RF signals - Enhanced signal processing capabilities - Improved wireless communication performance

Benefits: - Increased data throughput - Enhanced signal reliability - Better network coverage and capacity

Commercial Applications: Title: "Advanced Radio System Architecture for Enhanced Wireless Communications" This technology can be utilized in telecommunications companies, satellite communication providers, and military communication systems to improve signal processing and network performance.

Questions about Radio System Architecture: 1. How does the receiver manage multiple RF signals efficiently? The receiver uses multiple sub-arrays in a phased array to independently manage each RF signal, optimizing signal processing and beam management.

2. What are the key benefits of utilizing MIMO signal processing in this radio system architecture? MIMO signal processing allows for improved data throughput, increased signal reliability, and enhanced network coverage and capacity.

Original Abstract Submitted

A radio system architecture includes a receiver having multiple sub arrays in a phased array, the multiple sub arrays configured to perform carrier aggregation (CA) and multiple input multiple output (MIMO) signal processing, and provide independent beam management for multiple radio frequency (RF) signals received at each of the multiple sub arrays, and a data processor configured to receive signals from the receiver and extract information regarding wireless communications.