ISOLATOR

Organization Name

kabushiki kaisha toshiba

Inventor(s)

Jia Liu of Yokohama Kanagawa (JP)

Yusuke Imaizumi of Kawasaki Kanagawa (JP)

Minoru Takizawa of Sagamihara Kanagawa (JP)

Yoshinari Tamura of Yokohama Kanagawa (JP)

Daijo Chida of Yokohama Kanagawa (JP)

ISOLATOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240097303 titled 'ISOLATOR

Simplified Explanation

The isolator described in the patent application includes a first coil, a second coil, a plate-shaped first magnet, and a first insulator. The second coil is aligned with the first coil along a first axis and faces the first coil. The first magnet is positioned on a side of the second coil, facing the second coil, on the opposite side of where the first coil is located. The first magnet extends along a first plane intersecting the first axis, and the first insulator seals the first coil, second coil, and first magnet.

• First coil aligned with second coil along a first axis
• Plate-shaped first magnet positioned on side of second coil facing the first coil
• First magnet extends along a first plane intersecting the first axis
• First insulator seals the first coil, second coil, and first magnet

Potential Applications

The technology described in the patent application could potentially be applied in:

• Electromagnetic isolation systems
• Magnetic levitation devices
• Power transmission systems

Problems Solved

The isolator addresses the following issues:

• Electromagnetic interference
• Magnetic field disruptions
• Insulation breakdown in coil systems

Benefits

The technology offers the following benefits:

• Improved electromagnetic isolation
• Enhanced magnetic field stability
• Increased efficiency in power transmission

Potential Commercial Applications

The isolator technology could find applications in various industries, including:

• Electronics manufacturing
• Renewable energy sector
• Transportation systems

Possible Prior Art

One possible prior art for this technology could be electromagnetic shielding devices used in electronic equipment to prevent interference.

Unanswered Questions

How does the isolator technology impact energy efficiency in power transmission systems?

The isolator technology can potentially reduce energy losses by improving the stability of magnetic fields and minimizing electromagnetic interference, leading to more efficient power transmission.

What are the potential safety implications of using isolators in electromagnetic systems?

The use of isolators can enhance the safety of electromagnetic systems by reducing the risk of insulation breakdown and ensuring stable magnetic fields, but further research may be needed to assess any potential safety hazards associated with the technology.

Original Abstract Submitted

according to one embodiment, an isolator includes a first coil, a second coil, a plate-shaped first magnet, and a first insulator. the second coil is aligned with the first coil along a first axis and faces the first coil. the first magnet is provided on a side of the second coil and faces the second coil, the side being opposite to a side where the first coil is located. the first magnet extends along a first plane intersecting the first axis. the first insulator seals the first coil, the second coil, and the first magnet.