The increasing proliferation of renewable energy resources and new sizeable loads like electric vehicle (EV) charging stations has posed many technical and operational challenges to distribution grids [1]. Encouraged by attractive tax incentives and promotion policies, local grid end consumers are becoming not only consumers of electricity but, in many cases, also producers. The actual electric distribution system limits the use of renewable energy resources, offers poor EV infrastructure, and is based on a unidirectional information flow from sources to control centers
Power systems are experiencing a rapid and dra- matic transformation driven by the massive integrati...
An energy and environmental crisis will emerge throughout the world if we continue with our current ...
An energy and environmental crisis will emerge throughout the world if we continue with our current ...
Increasing decentralized energy production challenges the distribution grid [1], [2], and, in many c...
The Smart Transformer (ST), a power electronics-based transformer, allows DC-distribution, reactive ...
The solid-state transformer (SST) was conceived as a replacement for the conventional power transfor...
The application of the Smart Transformer (ST) in the electrical distribution system follows the tren...
The Smart Transformer (ST) is a solid-state transformer performing not only a voltage step-down func...
Abstract—Smart grid solutions with enabling technologies such as energy management systems (EMSs) an...
Due to the possibility to drastically reduce the Solid State Transformer (SST) volume and weight, it...
This article was published in the Spring 2011 issue of the Journal of Undergraduate Researc
While the use of power electronics based Smart Transformer (ST) is becoming a reality in traction ap...
Earlier conventional transformers usage in power grids has had a fairly one-sided existence for many...
Electrical power grids are evolving technologically from different perspectives, specifically, aimin...
An increasing amount of distributed generation in the future grid will be connected at the customer'...
Power systems are experiencing a rapid and dra- matic transformation driven by the massive integrati...
An energy and environmental crisis will emerge throughout the world if we continue with our current ...
An energy and environmental crisis will emerge throughout the world if we continue with our current ...
Increasing decentralized energy production challenges the distribution grid [1], [2], and, in many c...
The Smart Transformer (ST), a power electronics-based transformer, allows DC-distribution, reactive ...
The solid-state transformer (SST) was conceived as a replacement for the conventional power transfor...
The application of the Smart Transformer (ST) in the electrical distribution system follows the tren...
The Smart Transformer (ST) is a solid-state transformer performing not only a voltage step-down func...
Abstract—Smart grid solutions with enabling technologies such as energy management systems (EMSs) an...
Due to the possibility to drastically reduce the Solid State Transformer (SST) volume and weight, it...
This article was published in the Spring 2011 issue of the Journal of Undergraduate Researc
While the use of power electronics based Smart Transformer (ST) is becoming a reality in traction ap...
Earlier conventional transformers usage in power grids has had a fairly one-sided existence for many...
Electrical power grids are evolving technologically from different perspectives, specifically, aimin...
An increasing amount of distributed generation in the future grid will be connected at the customer'...
Power systems are experiencing a rapid and dra- matic transformation driven by the massive integrati...
An energy and environmental crisis will emerge throughout the world if we continue with our current ...
An energy and environmental crisis will emerge throughout the world if we continue with our current ...