The need for advanced monitoring and control applications (MCAs) in future distribution networks calls for highly accurate and fully integrated simulation solutions for the purpose of performance assessment of these MCAs. Offline simulation using models of the power system, measurement equipment, local controllers and the information and communication infrastructure do not always resemble reality accurate enough. Therefore, power hardware-in-the-loop (PHIL) simulations are considered a cost-effective approach to overcome these challenges. This study presents the design of a PHIL-interface that allows to integrate a physical low-voltage feeder within a larger real-time simulated distribution network. Using the combination of the physical net...
This paper presents an approach to extend the capabilities of smart grid laboratories through the co...
The ongoing transition of low voltage (LV) power grids towards active systems requires novel evaluat...
The importance of Power Hardware-in-the-Loop (PHIL) experiments is rising more and more over the las...
The need for advanced monitoring and control applications (MCAs) in future distribution networks cal...
The expected development of grid monitoring applications and control functionalities in low voltage ...
The usual practice to study a large power system is through digital computer simulation. However, th...
The subject of this doctoral thesis is the use of real-time simulation and specifically Power Hardwa...
study of modern house distribution systems with multiple energy sources and energy regeneration capa...
This paper discusses a new paradigm of real-time simulation of power systems in which equipment can ...
With the increasing complexity of modern power systems, mainly due to the high penetration of power ...
Power-Hardware-In-the-Loop (PHIL) simulations are increasingly useful for the design and validation ...
One of the most promising network controllers for the bulk power system is the family of power elect...
Abstract—A model-in-the-loop capability (MIL) has been de-veloped to emulate the dynamics of alterna...
In power hardware in the loop (PHIL) simulations, a real-time simulated power system is interfaced t...
Power electronic circuits have long since permeated technology sectors that pose strict requirements...
This paper presents an approach to extend the capabilities of smart grid laboratories through the co...
The ongoing transition of low voltage (LV) power grids towards active systems requires novel evaluat...
The importance of Power Hardware-in-the-Loop (PHIL) experiments is rising more and more over the las...
The need for advanced monitoring and control applications (MCAs) in future distribution networks cal...
The expected development of grid monitoring applications and control functionalities in low voltage ...
The usual practice to study a large power system is through digital computer simulation. However, th...
The subject of this doctoral thesis is the use of real-time simulation and specifically Power Hardwa...
study of modern house distribution systems with multiple energy sources and energy regeneration capa...
This paper discusses a new paradigm of real-time simulation of power systems in which equipment can ...
With the increasing complexity of modern power systems, mainly due to the high penetration of power ...
Power-Hardware-In-the-Loop (PHIL) simulations are increasingly useful for the design and validation ...
One of the most promising network controllers for the bulk power system is the family of power elect...
Abstract—A model-in-the-loop capability (MIL) has been de-veloped to emulate the dynamics of alterna...
In power hardware in the loop (PHIL) simulations, a real-time simulated power system is interfaced t...
Power electronic circuits have long since permeated technology sectors that pose strict requirements...
This paper presents an approach to extend the capabilities of smart grid laboratories through the co...
The ongoing transition of low voltage (LV) power grids towards active systems requires novel evaluat...
The importance of Power Hardware-in-the-Loop (PHIL) experiments is rising more and more over the las...