GHz-range Modeling and Embedded Noise Mitigation Techniques for Power Integrity Improvement in Fast-Switching, Multi-output DC-DC Converters Integrated On-chip and in High-density Packaging.
This research will be conducted in collaboration with a major electronic equipment supplier for avionics. It will explore innovative avenues to improve power integrity in highly integrated, fast-switching DC-DC converters on semiconductor chips and in System-in-Package (SiP) packages for safety-critical avionics systems. The research will aim at developing an integrated approach using embedded current measurement techniques and behavioral models, when the equipment is used in the application domain. The research will be conducted at the ÉTS LACIME laboratory, in an environment that deeply values equity, diversity, and inclusion, fostering a welcoming space for all researchers.
The main objective is to study new embedded current measurement techniques at GHz frequencies and behavioral models for predicting the port-to-port coupling of transient signals in the multiport SiP system, as well as an integrated approach for mitigating the power integrity degradation. Test benches, performance characterization and automated calibration methods will be developed in the laboratory specifically for the validation of the proposed techniques.
Required knowledge
B.Eng. with concentration in analog and radio frequency circuit design.
MSc with concentration in analog and radio frequency electronic circuit design as well as strong skills in digital signal processing, analog and radio frequency signals and systems analysis.