18293668. ELECTROMAGNETIC SHIELD AND COMMUNICATIONS UNIT simplified abstract (Panasonic Intellectual Property Management Co., Ltd.)
Contents
ELECTROMAGNETIC SHIELD AND COMMUNICATIONS UNIT
Organization Name
Panasonic Intellectual Property Management Co., Ltd.
Inventor(s)
Katsunobu Suzuki of Kyoto (JP)
Masanori Minamiyama of Osaka (JP)
ELECTROMAGNETIC SHIELD AND COMMUNICATIONS UNIT - A simplified explanation of the abstract
This abstract first appeared for US patent application 18293668 titled 'ELECTROMAGNETIC SHIELD AND COMMUNICATIONS UNIT
The abstract of the patent application describes an electromagnetic shield consisting of a metal sheet with viscoelastic layers on both surfaces.
- Metal sheet with two surfaces - one for each viscoelastic layer
- First viscoelastic layer on the first surface of the metal sheet
- Second viscoelastic layer on the second surface of the metal sheet
Potential Applications: - Electromagnetic interference shielding in electronic devices - Protection of sensitive equipment from external electromagnetic fields
Problems Solved: - Minimization of electromagnetic interference - Enhanced protection of electronic components
Benefits: - Improved performance of electronic devices - Increased reliability of sensitive equipment
Commercial Applications: - Electronics manufacturing industry - Aerospace and defense sector
Questions about Electromagnetic Shielding: 1. How does the viscoelastic layer contribute to the effectiveness of the shield?
The viscoelastic layer helps absorb and dissipate electromagnetic energy, reducing interference.
2. What are the key differences between this electromagnetic shield and traditional shielding methods?
This shield offers improved flexibility and damping properties compared to conventional shielding materials.
Original Abstract Submitted
An electromagnetic shield includes a metal sheet, a first viscoelastic layer, and a second viscoelastic layer. The metal sheet has a first surface and a second surface opposite from the first surface. The first viscoelastic layer is provided for the first surface. The second viscoelastic layer is provided for the second surface.
