PhD Proposal by Teng Sun

Event Details
  • Date/Time:
    • Tuesday December 4, 2018
      10:00 am - 12:00 pm
  • Location: GTMI 201
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Summaries

Summary Sentence: "Modeling, Design, Fabrication and Characterization of High-Density Inductors with Advanced Magnetic Composites

Full Summary: No summary paragraph submitted.

THE SCHOOL OF MATERIALS SCIENCE AND ENGINEERING

 

GEORGIA INSTITUTE OF TECHNOLOGY

 

Under the provisions of the regulations for the degree

DOCTOR OF PHILOSOPHY

on Tuesday, December 4, 2018

10:00 AM
in GTMI 201

 

will be held the

 

DISSERTATION PROPOSAL DEFENSE

for

 

Teng Sun

 

"Modeling, Design, Fabrication and Characterization of High-Density Inductors with Advanced Magnetic Composites"

 

Committee Members:

 

Prof. Rao Tummala, Advisor, MSE

Prof. Hamid Garmestani, MSE

Prof. Dong Qin, MSE

Prof. Eric Vogel, MSE

Prof. Raj Pulugurtha, ECE (Florida International University)

 

Abstract:

 

Inductors are critical power components in power converters. Their large size is, however, a major bottleneck for power module integration and efficient power management. High-density and miniaturized inductors can help migrate the power converters close to the processor. This can lead to lower losses, more efficient and granular power delivery. However, traditional magnetic materials that are used to fabricate inductors cannot achieve very high power densities or current-handling. Magnetic flake-composite materials provide unique opportunities to address these challenges by enhancing permeability, reducing core losses, miniaturizing   and integrating inductors close to the processor load.

 

The primary objective of this research is to model, design and demonstrate high-performance power inductors with high inductance densities, low DC resistance, and high current-handling. This requires major advances in magnetic materials with high permeabilities and high-frequency stability as well as specific inductor designs, materials, and  innovative substrate-embedding processes and characterizations.

 

Two-dimensional magnetic flakes provide multiple degrees of freedom to achieve high in-plane permeability with large X-Y dimensions and low eddy current losses from small Z dimensions. By synthesizing them as polymer composites, adequate thickness can be achieved for high current-handling. Advanced materials with 2D magnetic flakes will be designed to achieve high in-plane permeability, low losses from their plate-like morphology and high field-anisotropy. These materials are processed to achieve adequate thicknesses for current-handling. Such advanced materials are then integrated into inductors with innovative designs for achieving high inductance density with low DC resistance and high current-handling, with smaller footprints and lower thicknesses. Innovative material processing is developed to integrate such inductors with ultra-high performance into thin substrates.

Additional Information

In Campus Calendar
No
Groups

Graduate Studies

Invited Audience
Faculty/Staff, Public, Graduate students, Undergraduate students
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Other/Miscellaneous
Keywords
Phd proposal
Status
  • Created By: Tatianna Richardson
  • Workflow Status: Published
  • Created On: Nov 26, 2018 - 12:34pm
  • Last Updated: Nov 26, 2018 - 12:34pm