QTI's Electromechanical Power Converter Research is focused on:

Attempting to provide for "significant" dynamic efficiency improvements through novel commutation methods applied to electromechanical power converter topologies employing rectangular or sinusoidal (i.e., time-variant) electrodynamic interactions, and by researching Acyclic electromechanical power converter topologies that employ continuous (i.e., time-invariant) electrodynamic interactions.

Experimental Acyclic EMPC stator.

Experimental Acyclic EMPC stator and rotor (armature) assembly.

"A LOWER FORCE EXTREMITY AMPLIFICATION SYSTEM EMPLOYING IMPROVED LINEAR ACYCLIC ELECTROMAGNETIC ACTUATORS", conducted preliminary research, investigation, experimentation and modeling of improved acyclic actuator topologies towards US DoD/Army SBIR R&D call for proposal;

"A SPRING MOTOR ADVANCED ACYCLIC POWER SYSTEM WITH SELECTABLE GENERATING OPTIONS", conducted preliminary research, investigation, experimentation and modeling of improved acyclic generator topologies towards US DoD/Army SBIR R&D call for proposal.