18749342. WIRELESS CHARGING APPARATUS simplified abstract (Huawei Technologies Co., Ltd.)

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WIRELESS CHARGING APPARATUS

Organization Name

Huawei Technologies Co., Ltd.

Inventor(s)

Ming Zhao of Shenzhen (CN)

Xin Ma of Chengdu (CN)

Deshuang Zhao of Chengdu (CN)

Weipeng Jiang of Beijing (CN)

Tao Huang of Beijing (CN)

WIRELESS CHARGING APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18749342 titled 'WIRELESS CHARGING APPARATUS

The abstract describes a wireless charging apparatus that utilizes a multi-feed, multi-mode, and resonance coherent working mechanism to wirelessly charge an energy receiving apparatus through a focusing field, improving efficiency and miniaturizing the energy receiving antenna.

  • The apparatus includes a cavity and a phased array antenna.
  • The cavity has an even number of side faces that are parallel in pairs and can reflect electromagnetic waves.
  • The phased array antenna consists of an antenna array with multiple antennas that emit electromagnetic waves to charge an energy receiving device placed in the cavity.

Potential Applications: - Consumer electronics - Medical devices - Automotive industry

Problems Solved: - Improved wireless charging efficiency - Miniaturization of energy receiving antennas

Benefits: - Enhanced charging capabilities - Reduced size of antennas - Increased convenience for users

Commercial Applications: Title: Advanced Wireless Charging Technology for Various Industries This technology can be used in various industries such as consumer electronics, medical devices, and automotive, providing efficient and convenient wireless charging solutions.

Questions about the technology: 1. How does the multi-feed, multi-mode, and resonance coherent working mechanism improve wireless charging efficiency? 2. What are the specific advantages of using a phased array antenna in this wireless charging apparatus?


Original Abstract Submitted

A wireless charging apparatus is provided. The apparatus uses a multi-feed, multi-mode, and resonance coherent working mechanism and wirelessly charges an energy receiving apparatus through a focusing field, thereby effectively improving wireless charging efficiency and implementing miniaturization of an energy receiving antenna. The wireless charging apparatus includes a cavity () and a phased array antenna. The cavity () includes an even number of side faces (). The even number of side faces () are parallel in pairs. Each side face () has a capability of reflecting an electromagnetic wave. The phased array antenna includes an antenna array. The antenna array includes a plurality of antennas (). The plurality of antennas () are disposed on the even number of side faces () and are configured to emit electromagnetic waves to charge an energy receiving device () placed in the cavity ().