18156657. INTEGRATED CIRCUIT HAVING CURRENT-SENSING COIL simplified abstract (Taiwan Semiconductor Manufacturing Co., Ltd.)
Contents
INTEGRATED CIRCUIT HAVING CURRENT-SENSING COIL
Organization Name
Taiwan Semiconductor Manufacturing Co., Ltd.
Inventor(s)
INTEGRATED CIRCUIT HAVING CURRENT-SENSING COIL - A simplified explanation of the abstract
This abstract first appeared for US patent application 18156657 titled 'INTEGRATED CIRCUIT HAVING CURRENT-SENSING COIL
Simplified Explanation
The abstract describes an integrated circuit that includes a first conductive path, a coil structure, and a ferromagnetic structure.
- The first conductive path carries a time-varying current and generates a magnetic field.
- The coil structure is magnetically coupled with the first conductive path and generates an induced electrical potential in response to the magnetic field.
- The ferromagnetic structure has an open portion through which the first conductive path extends.
- The first conductive path includes a first conductive line below the ferromagnetic structure, a second conductive line above the ferromagnetic structure, and a first via plug that electrically connects the first and second conductive lines.
Potential applications of this technology:
- Wireless power transfer systems
- Inductive charging systems
- Magnetic field sensing devices
Problems solved by this technology:
- Efficient transfer of power wirelessly
- Enhanced sensitivity and accuracy in magnetic field sensing
Benefits of this technology:
- Improved efficiency in wireless power transfer
- Increased sensitivity and accuracy in magnetic field sensing
- Compact and integrated design for easy integration into various electronic devices.
Original Abstract Submitted
An integrated circuit includes a first conductive path over a substrate, a coil structure over the substrate, and a ferromagnetic structure. The first conductive path is configured to carry a first time-varying current and to generate a first time-varying magnetic field based on the first time-varying current. The coil structure is magnetically coupled with the first conductive path, and is configured to generate an induced electrical potential responsive to the first time-varying magnetic field. The ferromagnetic structure includes an open portion. The first conductive path extends through the open portion of the ferromagnetic structure. The first conductive path includes a first conductive line below the ferromagnetic structure, a second conductive line above the ferromagnetic structure, and a first via plug coplanar with the ferromagnetic structure. The first via plug electrically coupling the first conductive line and the second conductive line.