RADIO FREQUENCY ANTENNA AGGREGATOR SYSTEM FOR ENHANCED CHANNEL CAPACITY AND BEAMFORMING

Organization Name

APOGEE APPLIED RESEARCH, INC.

Inventor(s)

Matthew Campbell Yenn of Washington Township OH (US)

RADIO FREQUENCY ANTENNA AGGREGATOR SYSTEM FOR ENHANCED CHANNEL CAPACITY AND BEAMFORMING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240250726 titled 'RADIO FREQUENCY ANTENNA AGGREGATOR SYSTEM FOR ENHANCED CHANNEL CAPACITY AND BEAMFORMING

The present disclosure pertains to a radio frequency (RF) antenna aggregator system and method that aims to improve the efficiency and performance of signal transmission and reception in arrayed antennas. The system includes a digital processor, an analog processor, and a converter working together to manipulate RF signals for various applications such as beamforming and MIMO operations. The digital processor can separate and combine RF signals using frequency division multiplexing, while the analog processor performs similar functions in the analog domain. The converter facilitates a seamless transition between digital and analog signals, reducing hardware costs and power consumption while supporting multiple beams and enabling software-defined radio capabilities. This innovation is particularly beneficial for large antenna arrays, offering a low-power, cost-effective solution for complex RF signal management.

• Digital processor separates and combines RF signals using frequency division multiplexing
• Analog processor performs similar functions in the analog domain
• Converter facilitates a transition between digital and analog signals
• Reduces hardware costs and power consumption
• Supports multiple beams and enables software-defined radio capabilities

Potential Applications: - Telecommunications - Radar systems - Satellite communications - Wireless networks

Problems Solved: - Enhances efficiency and performance of signal transmission and reception - Reduces hardware costs and power consumption - Supports multiple beams and enables software-defined radio capabilities

Benefits: - Improved signal processing efficiency - Cost-effective solution for complex RF signal management - Supports multiple beams and software-defined radio capabilities

Commercial Applications: Title: Enhanced RF Antenna Aggregator System for Improved Signal Processing This technology can be utilized in telecommunications, radar systems, satellite communications, and wireless networks to enhance signal processing efficiency, reduce costs, and support multiple beams and software-defined radio capabilities.

Questions about RF Antenna Aggregator System: 1. How does the RF antenna aggregator system improve signal processing efficiency? 2. What are the potential commercial applications of this technology?

Frequently Updated Research: Stay updated on the latest advancements in RF antenna aggregator systems to ensure optimal signal processing efficiency and performance.

Original Abstract Submitted

the present disclosure relates to a radio frequency (rf) antenna aggregator system and method designed to enhance the efficiency and performance of signal transmission and reception in arrayed antennas. the system may comprise a digital processor, an analog processor, and a converter that work in concert to manipulate rf signals for various applications, including beamforming and multiple input multiple output (mimo) operations. the digital processor may be adept at separating and combining rf signals using frequency division multiplexing, while the analog processor may perform similar functions in the analog domain. the converter may facilitate a transition between digital and analog signals, ensuring seamless signal processing. this innovative approach allows for the reduction of hardware costs and power consumption while maintaining high performance, supporting multiple beams, and enabling software-defined radio capabilities. the disclosure may be particularly beneficial for large antenna arrays, offering a low-power, cost-effective solution for complex rf signal management.