Publications, Activities, and Awards
- 5-Level PWM Scheme for a Dual Inverter Drive Using an Open Winding Machine
- A Modular Battery Voltage Balancing System Using a Series Connected Topology
- Bidirectional DC -AC Converter Using a High- Frequency Transformer with Multi-Frequency Decoupled Power Control
- Carrier Transition Techniques for Parallel Connected VSCs Using Cross-Coupled Inductors
- Carrier Transition Techniques for Parallel Connected VSCs Using Cross-Coupled Inductors
- Circulating Current Suppression in Parallel Connected ANPC Converters using Advanced PWM Switching Patterns
- Concentrated Winding IPM Synchronous Motor Design for Wide Field Weakening Applications
- Control and Analysis of a Modular Battery Voltage Balancing Cell
- Control and Analysis of a Modular Bridge for Battery Cell Voltage Balancing
- Coupled Inductors for High-Frequency Drives With Parallel-Connected Inverter Legs
- DC/AC Voltage Sourced Converter with Auxiliary DC Port for Renewable Energy Applications
- Decoupled Floating Capacitor Voltage Control of a Dual Inverter Drive for an Open-Ended Winding Induction Motor
- Design of Three Limb Coupled Inductors using Cross-Coupled Windings to produce Multi-Level Output Voltages and Reduced Magnetics
- Dynamic Pulse-Positioning for a Single-Stage Isolated AC-DC Converter
- Enhanced Interleaved PWM Scheme with Flux Compensation for Three-Parallel Connected Inverters
- Field Weakening Operation of Open-Winding Induction Motor Dual Drives Using a Floating Capacitor Bridge Inverter
- Flux Minimization in Interphase Coupled Inductors of Parallel-Connected Voltage Source Converters
- Guidelines for Selecting Minimum Capacitance for a Floating Bridge Dual Inverter Drive
- High Efficiency Operation of an Open-Ended Winding Induction Motor using Constant Power Factor Control
- High-Efficiency Operation of an Open-Ended Winding Induction Motor Using Constant Power Factor Control
- High-Quality PWM Scheme for High-Speed Electric Drives
- Low Harmonic Loss PWM for a Dual Inverter Drive using a Floating Capacitor Inverter
- Maximum Torque Operation of Open-Winding Induction Motor Dual Drives Using a Floating Capacitor Bridge in the Field Weakening Region
- Multi-Level Power Converters using Coupled Inductors and Parallel Connected 2-Level Inverters
- Multi-level Voltage Source Converters using Coupled Inductors and Parallel Connected Inverter Legs
- Multi-Level Voltage Source Parallel Inverters and Coupled Inductors
- Multiport Converter With Enhanced Port Utilization Using Multitasking Dual Inverters
- Multiport Converter with Independent Control of AC and DC Power Flows for Bipolar DC Distribution
- Parallel Inverters using a DC Common Mode PWM Filter with an AC Differential Mode PWM Filter
- Parallel-Connected Voltage Source Converters With a DC Common Mode and an AC Differential Mode PWM Filter
- Prize Paper award
- PWM Control of a Dual Inverter Drive X using a Floating Capacitor Inverter
- Robust Floating Capacitor Voltage Control of Dual Inverter Drive for Open-Ended Winding Induction Motor
- Smart Electrical Grid Interface Using Floating H-Bridges to Improve the Performance of Induction Motors