Key Features and Design Goals:

• Interleaving multiple phase operation to reduce the input current ripple and passive component size. 

• Even current distribution to eliminate the unbalanced current stress on power switches. 

• Simple current balancing control algorithm and single current sampling strategy.

Applications:

• • Battery charger, photovoltaic panels, fuel cells, etc.

Key Features and Design Goals:

•  Multilevel structure to reduce the output voltage ripple and passive component size. 

• Even voltage distribution to eliminate the unbalanced voltage stress on power switches. 

• Effective voltage balancing control algorithm to maintain the proper voltage ratio.

Applications:

• Photovoltaic panels, fuel cell systems, etc.

Key Features and Design Goals:

• •  Proposed sensorless control method without any current sensor to reduce the cost of circuit components. 

  • Improving the system reliability and power quality. 

Applications:

• • Grid-connected power system, DC microgrid, etc.

Key Features and Design Goals:

• Double line frequency (120Hz) input current/voltage ripple elimination. 

• Miniaturization of components. 

• Application of wide-bandgap devices (GaN).

• Thermal management.

Applications:

• • Photovoltaic panels, microinverters, etc.

Key Features and Design Goals:

• Simultaneous wireless power and data transfer (SWPDT).

• Amplitude-shift keying modulation (ASK) technique.

• Application of wide-bandgap devices (GaN FET).

Applications:

• • Wireless charger, mobile charger, etc.

Key Features and Design Goals:

• Sliding Mode Observer (SMO).

• Field-Oriented Control (FOC) and Adaptive Control.

• Power Assisted Control Strategy.

Applications:

• • E-bike, motor control, etc.