Add to ORKGThis master thesis has been carried out in collaboration with Saab, Avionics Systems in Jönköping, Sweden, during the spring of 2017. The thesis investigates unidirectional rectifier topologies in aircraft and the focus has been on evaluating the power quality requirements according to the aircraft standards, in the course of the More Electric Aircraft concept. Both passive and active power factor correction topologies are considered, discussed and compared. Simulation models are designed in MATLAB/Simulink and the procedures are presented. A modular concept regarding components is discussed where different power supplies and loads are considered. The simulations present both a passive 12-pulse auto-transformer rectifier unit and an activ...
The continuous development of power electronic converters has opened new opportunities for the More-...
The paper reviews the exploration of electrification in the aerospace industry, working with the con...
The intentions of the so-called "More Electrical Aircraft" (MEA) are higher efficiency and lower wei...
This master thesis has been carried out in collaboration with Saab, Avionics Systems in Jönköping,...
This article focuses on power electronic multi-pulse 12-, 24- and 36-impulse rectifiers based on mul...
This master thesis aim to design and evaluate a high power 3-phase DC/AC and AC/AC converter. The pu...
Electrical power demand is steadily increasing in more electric aircraft (MEA) as conventional pneum...
The concept of Power Optimized More Electric Aircraft, including new electrical architectures, redun...
Aircraft electrification requires reliable, power-dense, high-efficient, and bidirectional rectifier...
This study proposes a novel and compact AC/DC electrical distribution system for new generation airc...
This paper presents some power converter architectures and circuit topologies, which can be used to ...
In this study a 5kW power supply for aircraft applications has been designed. Boost type power facto...
he work deals with the issues of modern architecture power supply compatible with the trend of...
In aircraft applications, there has been an increasing trend related with the More Electric Aircraft...
This article presents the study of an aircraft electric system with emphasis in Power Quality (PQ) a...
The continuous development of power electronic converters has opened new opportunities for the More-...
The paper reviews the exploration of electrification in the aerospace industry, working with the con...
The intentions of the so-called "More Electrical Aircraft" (MEA) are higher efficiency and lower wei...
This master thesis has been carried out in collaboration with Saab, Avionics Systems in Jönköping,...
This article focuses on power electronic multi-pulse 12-, 24- and 36-impulse rectifiers based on mul...
This master thesis aim to design and evaluate a high power 3-phase DC/AC and AC/AC converter. The pu...
Electrical power demand is steadily increasing in more electric aircraft (MEA) as conventional pneum...
The concept of Power Optimized More Electric Aircraft, including new electrical architectures, redun...
Aircraft electrification requires reliable, power-dense, high-efficient, and bidirectional rectifier...
This study proposes a novel and compact AC/DC electrical distribution system for new generation airc...
This paper presents some power converter architectures and circuit topologies, which can be used to ...
In this study a 5kW power supply for aircraft applications has been designed. Boost type power facto...
he work deals with the issues of modern architecture power supply compatible with the trend of...
In aircraft applications, there has been an increasing trend related with the More Electric Aircraft...
This article presents the study of an aircraft electric system with emphasis in Power Quality (PQ) a...
The continuous development of power electronic converters has opened new opportunities for the More-...
The paper reviews the exploration of electrification in the aerospace industry, working with the con...
The intentions of the so-called "More Electrical Aircraft" (MEA) are higher efficiency and lower wei...