ULTRA-LOW POWER BEAMFORMING WIRELESS POWER TRANSFER SYSTEM

Organization Name

Northeastern University

Inventor(s)

Aatmesh Shrivastava of Weston MA (US)

ULTRA-LOW POWER BEAMFORMING WIRELESS POWER TRANSFER SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240322605 titled 'ULTRA-LOW POWER BEAMFORMING WIRELESS POWER TRANSFER SYSTEM

• • Simplified Explanation:**

The patent application focuses on enhancing wireless power transfer efficiency using an ultra-low power distributed beamforming technique, phase and frequency offset correction, backscattering communication, and a new rectifier and MPT method for RF-to-DC conversion.

• • Key Features and Innovation:**
• Ultra-low power distributed beamforming technique
• Phase and frequency offset correction for beamforming optimization
• Backscattering communication technique to reduce power overhead
• New rectifier and MPT method for high efficiency RF-to-DC conversion

• • Potential Applications:**

This technology can be applied in various industries such as IoT devices, medical implants, and consumer electronics for efficient wireless power transfer.

• • Problems Solved:**

The technology addresses the inefficiencies in traditional wireless power transfer methods, improving overall efficiency and reducing power consumption.

• • Benefits:**
• Increased efficiency in wireless power transfer
• Reduced power consumption
• Enhanced reliability in power delivery

• • Commercial Applications:**

The technology can be utilized in the development of smart homes, wearable devices, and industrial automation systems for efficient and reliable wireless power transfer solutions.

• • Questions about Wireless Power Transfer:**

1. How does the ultra-low power distributed beamforming technique improve efficiency in wireless power transfer? 2. What are the potential commercial applications of this technology in the consumer electronics industry?

• • Frequently Updated Research:**

Researchers are continuously exploring new methods to further enhance the efficiency and reliability of wireless power transfer technologies. Stay updated on the latest advancements in this field for potential future applications.

Original Abstract Submitted

wireless power transfer (wpt) efficiency is enhanced using an ultra-low power (ulp) distributed beamforming technique. a phase and frequency offset correction technique is used for beam-forming optimization, a backscattering communication technique is used to reduce power over-head, and a new rectifier and mpt method is used for high efficiency rf-to-dc conversion.