Add to ORKGAbstract- This papcr prcscnts the configuration of a high frequency (HF) coaxial transformer with Faraday shield and discusses the shielding effect and insertion loss of the transformer i n the high frequency range. The experimental results show the voltage ratio, coupling coelficiency and load characteristic of the HF coaxial transformer in the range up to 2MHz. The numerical result illustrates the eddy current distribution in the windings and shielding coil, and the magnetic flux distribution in thc shicldcd HF coaxial transformer. 1
Using offshore wind farm to generate electrical power was a hot research topic over the last decade....
In power electronics, the tendency to increase power and frequency (in the range of several MHz) has...
A hierarchical multi-scale approach to modeling of high frequency phenomena in power transformers is...
Existing DC-DC converters used in the energy storage systems are usually bulky and inefficient. This...
Abstract: This paper presents and investigates planar and coaxial high frequency power transformers ...
This paper introduces a high-frequency coaxial transformer (HFCT) with a power ef?ciency of >99.5% a...
Electric field and voltage distribution analysis play an important role in designing optimal DC-DC c...
Magnetic analysis for high frequency (HF) transformers is an important step in designing the magneti...
In this paper, a high frequency transformer with different conductors and winding arrangements, at p...
The objective of this work is to propose a design methodology for a high-frequency transformer in th...
International audienceThis paper depicts a method to elaborate a high-frequency (100 kHz to 50 MHz) ...
High frequency transformers are an integral part of power electronics devices and their parasitic pa...
The transformer loss is the important factor influencing the transformer operation. The high frequen...
Increasing the operational frequency is the most common solution to achieve higherpower densities, s...
This paper examines the winding losses characteristic of a 4 kVA high frequency coaxial transformer ...
Using offshore wind farm to generate electrical power was a hot research topic over the last decade....
In power electronics, the tendency to increase power and frequency (in the range of several MHz) has...
A hierarchical multi-scale approach to modeling of high frequency phenomena in power transformers is...
Existing DC-DC converters used in the energy storage systems are usually bulky and inefficient. This...
Abstract: This paper presents and investigates planar and coaxial high frequency power transformers ...
This paper introduces a high-frequency coaxial transformer (HFCT) with a power ef?ciency of >99.5% a...
Electric field and voltage distribution analysis play an important role in designing optimal DC-DC c...
Magnetic analysis for high frequency (HF) transformers is an important step in designing the magneti...
In this paper, a high frequency transformer with different conductors and winding arrangements, at p...
The objective of this work is to propose a design methodology for a high-frequency transformer in th...
International audienceThis paper depicts a method to elaborate a high-frequency (100 kHz to 50 MHz) ...
High frequency transformers are an integral part of power electronics devices and their parasitic pa...
The transformer loss is the important factor influencing the transformer operation. The high frequen...
Increasing the operational frequency is the most common solution to achieve higherpower densities, s...
This paper examines the winding losses characteristic of a 4 kVA high frequency coaxial transformer ...
Using offshore wind farm to generate electrical power was a hot research topic over the last decade....
In power electronics, the tendency to increase power and frequency (in the range of several MHz) has...
A hierarchical multi-scale approach to modeling of high frequency phenomena in power transformers is...