WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS

Organization Name

Google LLC

Inventor(s)

Li Wang of Mountain View CA (US)

Liang Jia of Mountain View CA (US)

Liyu Yang of Mountain View CA (US)

Stefano Saggini of Udine (IT)

WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17996736 titled 'WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS

The abstract describes a device with multiple capacitor and wireless charging coil pairs arranged in parallel, driven by a common signal through a driver circuit or providing a common signal to a sink circuit.

• The device includes multiple capacitor and wireless charging coil pairs.
• These pairs are connected in parallel.
• A driver circuit can drive these pairs with a common signal.
• Alternatively, a sink circuit can receive a common signal from the pairs.

Potential Applications: - Wireless charging systems - Power transfer devices - Electronic devices with integrated charging capabilities

Problems Solved: - Efficient power transfer - Simplified circuit design - Enhanced charging capabilities

Benefits: - Faster charging speeds - Improved energy efficiency - Streamlined device integration

Commercial Applications: Title: "Innovative Wireless Charging Systems for Enhanced Device Integration" This technology can be used in smartphones, wearables, and other portable electronics to provide convenient and efficient wireless charging solutions. It can also be integrated into furniture and vehicles for seamless charging experiences.

Prior Art: Researchers can explore existing patents related to wireless charging systems, capacitor arrangements, and driver/sink circuits to understand the background of this innovation.

Frequently Updated Research: Researchers in the field of wireless power transfer and electronic circuit design may have ongoing studies on optimizing the efficiency and performance of similar devices.

Questions about the Technology: 1. How does this device improve upon traditional wireless charging systems? 2. What are the key advantages of using multiple capacitor and coil pairs in parallel for wireless charging applications?

Original Abstract Submitted

An example device includes a plurality of capacitor and wireless charging coil series pairs that are collectively in parallel; and one or both of: a driver circuit configured to drive the plurality of capacitor and wireless charging coil series pairs with a first common signal; or a sink circuit configured to receive a second common signal from the plurality of capacitor and wireless charging coil series pairs.