Comprehensive Testing to Speed Development of More Reliable Power Interconnects

Outcome/Accomplishment

Stands and computer simulations for testing the reliability of power electronic interconnects under multiple stresses were developed by researchers at the Center for Power Optimization of Electro-Thermal Systems, an NSF-funded Engineering Research Center (ERC) based at the University of Illinois.

Impact/Benefits

The tools can help designers comprehensively test power electronic interconnects, enabling them to optimize the devices for size and lifetime reliability. With this tool in their hands, system designers can cost-effectively create smaller, more reliable power devices.

Explanation/Background

This project illustrates a key goal of POETS, which is to break down the silos between different disciplines (electrical, mechanical, materials) in order to co-design and co-operate these power-dense electro-thermal systems. The tool being developed would not be possible without collaboration between various areas of reliability research. This tool combines the efforts from experiments that yield tangible data for the development of statistical models, high-fidelity simulation results that allow for an increased understanding of the physics-of-failure related to power electronic interconnects, and work done to interface and inject existing analysis frameworks with data-driven results.

The diagram illustrates the three main efforts that come together in developing the comprehensive testing tools for power electronic interconnects.

Location

Urbana-Champaign, Illinois

e-mail

poets-erc@illinois.edu

website

https://poets-erc.org/

Start Year

Microelectronics and IT

Microelectronics, Sensing, and Information Technology Icon
Microelectronics, Sensing, and Information Technology Icon

Microelectronics, Sensing, and IT

Lead Institution

University of Illinois at Urbana-Champaign

Core Partners

Howard University, Stanford University, University of Arkansas

Fact Sheet

POETS Fact Sheet.pdf
The diagram illustrates the three main efforts that come together in developing the comprehensive testing tools for power electronic interconnects.

Outcome/Accomplishment

Stands and computer simulations for testing the reliability of power electronic interconnects under multiple stresses were developed by researchers at the Center for Power Optimization of Electro-Thermal Systems, an NSF-funded Engineering Research Center (ERC) based at the University of Illinois.

Location

Urbana-Champaign, Illinois

e-mail

poets-erc@illinois.edu

website

https://poets-erc.org/

Start Year

Microelectronics and IT

Microelectronics, Sensing, and Information Technology Icon
Microelectronics, Sensing, and Information Technology Icon

Microelectronics, Sensing, and IT

Lead Institution

University of Illinois at Urbana-Champaign

Core Partners

Howard University, Stanford University, University of Arkansas

Fact Sheet

POETS Fact Sheet.pdf

Impact/benefits

The tools can help designers comprehensively test power electronic interconnects, enabling them to optimize the devices for size and lifetime reliability. With this tool in their hands, system designers can cost-effectively create smaller, more reliable power devices.

Explanation/Background

This project illustrates a key goal of POETS, which is to break down the silos between different disciplines (electrical, mechanical, materials) in order to co-design and co-operate these power-dense electro-thermal systems. The tool being developed would not be possible without collaboration between various areas of reliability research. This tool combines the efforts from experiments that yield tangible data for the development of statistical models, high-fidelity simulation results that allow for an increased understanding of the physics-of-failure related to power electronic interconnects, and work done to interface and inject existing analysis frameworks with data-driven results.