18583137. COIL DEVICE simplified abstract (TDK Corporation)
Contents
COIL DEVICE
Organization Name
Inventor(s)
Kazunori Arimitsu of Tokyo (JP)
Makoto Takahashi of Tokyo (JP)
Katsushi Yasuhara of Tokyo (JP)
Hironobu Furukawa of Tokyo (JP)
COIL DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18583137 titled 'COIL DEVICE
The abstract describes a coil device with a wound portion, a leadout portion, and an element body covering both parts. The winding axis of the wound portion is perpendicular to the mounting facing surface of the element body and displaced in the opposite direction with respect to the center of the element body. The outer circumferential surface of the wound portion bulges outward in the first direction.
- The coil device has a wound portion, leadout portion, and element body.
- The winding axis of the wound portion is perpendicular to the mounting facing surface.
- The winding axis is displaced in the opposite direction with respect to the center of the element body.
- The outer circumferential surface of the wound portion bulges outward in the first direction.
Potential Applications: - Electrical engineering applications - Electronic devices - Power generation systems
Problems Solved: - Efficient energy transfer - Compact design - Enhanced performance
Benefits: - Improved energy efficiency - Space-saving design - Reliable operation
Commercial Applications: Title: Innovative Coil Device for Enhanced Energy Transfer This technology can be used in various electronic devices, power generation systems, and electrical engineering applications. Its compact design and efficient energy transfer capabilities make it ideal for commercial use in the electronics industry.
Questions about the technology: 1. How does the unique design of the coil device improve energy transfer efficiency? 2. What are the potential market implications of implementing this technology in power generation systems?
Original Abstract Submitted
A coil device has a wound portion, a leadout portion led out from the wound portion in a first direction, and an element body covering the wound portion and the leadout portion. A winding axis of the wound portion is perpendicular to a mounting facing surface of the element body and is displaced to a second direction opposite to the first direction with respect to a center of the element body. An outer circumferential surface of the wound portion is distorted so as to bulge outward in the first direction from the outer circumferential surface of the wound portion.