The use of non-Foster components in wideband matching networks for improvement of effective diversity gain and total radiation efficiency of a multi-port antenna is studied. The frequency response of an optimized wideband matching network is first derived, and afterwards synthesized with real circuit components. As the required reactance slope of the realized components often turns out to be negative for both single and multi-port wideband antennas, the possibility to use negative capacitors and inductors (i.e. non-Foster components) is investigated. To exemplify this, two inverted L-antennas (bended monopoles) on a mobile phone sized ground plane is studied
International audienceMultiport antenna systems can be regarded as N-port networks, which can be ana...
International audienceIn this paper, we present the design of a small, wideband antenna with an embe...
This PhD dissertation explores novel electromagnetic applications using negative-group-delay (NGD) a...
The use of non-Foster components in wideband matching networks for improvement of effective diversit...
Non-Foster networks provide a possible route for broad band matching of antennas. The major challeng...
At low frequencies, non-Foster matching improves the performance of ESAs and overcomes the limitatio...
International audienceDecreasing the electric length of an antenna results in increasing its input r...
In many applications, like in aeronautical control and communication systems, there are important ...
International audienceThis paper presents the design of a wideband electrically small antenna using ...
In recent years, non-Foster circuits are an active area for research purposes because they can handl...
Matching networks are widely used in the antenna transmitter and receiver applications and thus they...
Most antenna engineers are likely to believe that antennas are one technology that is more or less i...
Abstract—The possibility of using non-Foster circuit to expand the bandwidth of a monopole antenna i...
The demand for miniaturized, broadband communication systems has created a need for electrically sma...
Electrically small antennas (ESAs) are more and more necessary in a lot of communication system wher...
International audienceMultiport antenna systems can be regarded as N-port networks, which can be ana...
International audienceIn this paper, we present the design of a small, wideband antenna with an embe...
This PhD dissertation explores novel electromagnetic applications using negative-group-delay (NGD) a...
The use of non-Foster components in wideband matching networks for improvement of effective diversit...
Non-Foster networks provide a possible route for broad band matching of antennas. The major challeng...
At low frequencies, non-Foster matching improves the performance of ESAs and overcomes the limitatio...
International audienceDecreasing the electric length of an antenna results in increasing its input r...
In many applications, like in aeronautical control and communication systems, there are important ...
International audienceThis paper presents the design of a wideband electrically small antenna using ...
In recent years, non-Foster circuits are an active area for research purposes because they can handl...
Matching networks are widely used in the antenna transmitter and receiver applications and thus they...
Most antenna engineers are likely to believe that antennas are one technology that is more or less i...
Abstract—The possibility of using non-Foster circuit to expand the bandwidth of a monopole antenna i...
The demand for miniaturized, broadband communication systems has created a need for electrically sma...
Electrically small antennas (ESAs) are more and more necessary in a lot of communication system wher...
International audienceMultiport antenna systems can be regarded as N-port networks, which can be ana...
International audienceIn this paper, we present the design of a small, wideband antenna with an embe...
This PhD dissertation explores novel electromagnetic applications using negative-group-delay (NGD) a...