THROUGH-MAGNETIC INDUCTOR

Organization Name

Advanced Micro Devices, Inc.

Inventor(s)

Robert Grant Spurney of Austin TX (US)

Alexander Helmut Pfeiffenberger of Markham (CA)

Sri Ranga Sai Boyapati of Austin TX (US)

Deepak Vasant Kulkarni of Austin TX (US)

THROUGH-MAGNETIC INDUCTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18478416 titled 'THROUGH-MAGNETIC INDUCTOR

The disclosed inductor in this patent application consists of a magnetic material surrounding a conductive core, which can be embedded in a substrate. The magnetic material and conductive core are formed in the substrate using a magnetic composite material.

• The inductor includes a magnetic material surrounding a conductive core.
• The magnetic material and conductive core can be embedded in a substrate.
• The magnetic material and conductive core are formed in the substrate using a magnetic composite material.
• Various other systems and methods are also disclosed.

Potential Applications: - Power electronics - Electric motors - Transformers - Inductive charging systems

Problems Solved: - Efficient energy transfer - Reduction in size and weight of inductive components - Enhanced performance of electronic devices

Benefits: - Improved efficiency in energy transfer - Compact and lightweight design - Enhanced performance of electronic systems

Commercial Applications: Title: "Innovative Inductor Technology for Power Electronics and Electric Motors" This technology can be utilized in various industries such as automotive, consumer electronics, and renewable energy sectors. It can revolutionize the design and performance of power electronics and electric motors.

Questions about the technology: 1. How does the use of a magnetic composite material enhance the performance of the inductor? 2. What are the key advantages of embedding the magnetic material and conductive core in a substrate for inductor applications?

Original Abstract Submitted

The disclosed inductor includes a magnetic material surrounding a conductive core. The magnetic material and conductive core can be embedded in a substrate. The magnetic material and conductive core can be formed in the substrate, using a magnetic composite material. Various other systems and methods are also disclosed.