Google llc (20240223012). WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS simplified abstract
Contents
WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS
Organization Name
Inventor(s)
Li Wang of Mountain View CA (US)
Liang Jia of Mountain View CA (US)
Liyu Yang of Mountain View CA (US)
WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240223012 titled 'WIRELESS CHARGING WITH SPLIT RESONANT CAPACITORS
The abstract describes a device with multiple capacitor and wireless charging coil pairs arranged in parallel, along with a driver circuit or sink circuit to manage signals.
- Simplified Explanation: The device in question consists of several pairs of capacitors and wireless charging coils that work together in parallel, controlled by a driver or sink circuit.
- Key Features and Innovation:
- Multiple capacitor and wireless charging coil pairs in parallel - Driver circuit to manage signals - Sink circuit to receive signals
- Potential Applications:
- Wireless charging technology - Power management systems - Electronic devices requiring efficient charging
- Problems Solved:
- Efficient wireless charging - Simplified power management - Enhanced device charging capabilities
- Benefits:
- Faster and more efficient charging - Streamlined power management - Improved device performance
- Commercial Applications:
- Wireless charging devices - Consumer electronics - Power banks and portable chargers
- Prior Art:
- Research on wireless charging technologies - Studies on capacitor and coil pair configurations
- Frequently Updated Research:
- Advancements in wireless charging technology - Innovations in power management systems
Questions about the technology: 1. How does the device optimize wireless charging efficiency? 2. What are the potential drawbacks of using multiple capacitor and coil pairs in parallel?
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.
