20240055178. BLOCK COIL simplified abstract (Murata Manufacturing Co., Ltd.)
Contents
BLOCK COIL
Organization Name
Murata Manufacturing Co., Ltd.
Inventor(s)
Takayuki Tange of Milton Keynes (GB)
Lee Francis of Milton Keynes (GB)
Scott Andrew Parish of Milton Keynes (GB)
Rohit Sidapara of Milton Keynes (GB)
BLOCK COIL - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240055178 titled 'BLOCK COIL
Simplified Explanation
The patent application describes an electronic module comprising a substrate or lead frame, a magnetic core, a block coil, an IC, and a capacitor.
- The module includes primary and secondary conductive patterns on the substrate or lead frame.
- The block coil has a resin body that extends over the magnetic core, with first and second terminals embedded in the resin body.
- Two first terminals are connected to primary conductive patterns, while two second terminals are connected to secondary conductive patterns.
- A first primary conductive pattern is closer to a second primary conductive pattern than any of the secondary conductive patterns.
- Potential Applications:**
- Power electronics
- Automotive electronics
- Industrial automation
- Problems Solved:**
- Efficient power transfer
- Compact design
- Improved electromagnetic interference (EMI) performance
- Benefits:**
- Higher power density
- Enhanced reliability
- Reduced EMI interference
Original Abstract Submitted
an electronic module includes a substrate or a lead frame including primary conductive patterns and secondary conductive patterns; a magnetic core; a block coil including a resin body that is located on or above the substrate or the lead frame and that extends over the magnetic core, first terminals that define a first terminal group and that are on or embedded in the resin body, and second terminals that define a second terminal group and that on or are embedded in the resin body; an ic; and a capacitor. two first terminals of the first terminal group are connected to corresponding primary conductive patterns; two second terminals of the second terminal group are connected corresponding secondary conductive patterns; and a first primary conductive pattern is closer to a second primary conductive pattern than any of the secondary conductive patterns.
