In this paper, the bandwidth limitations of dipoles matched with negative impedance components are discussed. In theory, infinite impedance bands are possible with non-Foster impedances, but in practice the fields stored inside the smallest sphere enclosing the antenna limit the band. Both theoretical and practical achievable bandwidths as well as non-Foster component tolerance issues are reported in this paper
Non-Foster-loaded antennas have the advantages of compact size and large bandwidth. Meanwhile, they ...
NoThe bandwidth of a microstrip patch antenna is expressed in terms of minimum achievable reflection...
The use of non-Foster components in wideband matching networks for improvement of effective diversit...
In this paper, the bandwidth limitations of dipoles matched with negative impedance components are d...
Using circuit theory and Chu's network representations of the wave impedance of the lowest spherical...
Physical limitations based only on antenna volume, form factor and material parameters are applied t...
The demand for miniaturized, broadband communication systems has created a need for electrically sma...
A broad-bandwidth, electrically small, near-field resonant parasitic (NFRP) dipole antenna has been ...
Electrically small antennas present high-Q impedance characterized by large reactance and small radi...
PhDThere is a demand for broadband electrically small antennas that cover large frequency bands wit...
Abstract—The possibility of using non-Foster circuit to expand the bandwidth of a monopole antenna i...
© 2015 IEEE. The impedance bandwidth of a near-field resonant parasitic (NFRP) element of an electri...
© 2014 Institute of Antenna Engineers of Taiwan. The impedance bandwidth of a metamaterial-inspired,...
A non-Foster circuit (NFC) based on the resonant tunneling diode (RTD) is proposed for application t...
In the design of antenna systems, it is well known that there are trade-offs between bandwidth and s...
Non-Foster-loaded antennas have the advantages of compact size and large bandwidth. Meanwhile, they ...
NoThe bandwidth of a microstrip patch antenna is expressed in terms of minimum achievable reflection...
The use of non-Foster components in wideband matching networks for improvement of effective diversit...
In this paper, the bandwidth limitations of dipoles matched with negative impedance components are d...
Using circuit theory and Chu's network representations of the wave impedance of the lowest spherical...
Physical limitations based only on antenna volume, form factor and material parameters are applied t...
The demand for miniaturized, broadband communication systems has created a need for electrically sma...
A broad-bandwidth, electrically small, near-field resonant parasitic (NFRP) dipole antenna has been ...
Electrically small antennas present high-Q impedance characterized by large reactance and small radi...
PhDThere is a demand for broadband electrically small antennas that cover large frequency bands wit...
Abstract—The possibility of using non-Foster circuit to expand the bandwidth of a monopole antenna i...
© 2015 IEEE. The impedance bandwidth of a near-field resonant parasitic (NFRP) element of an electri...
© 2014 Institute of Antenna Engineers of Taiwan. The impedance bandwidth of a metamaterial-inspired,...
A non-Foster circuit (NFC) based on the resonant tunneling diode (RTD) is proposed for application t...
In the design of antenna systems, it is well known that there are trade-offs between bandwidth and s...
Non-Foster-loaded antennas have the advantages of compact size and large bandwidth. Meanwhile, they ...
NoThe bandwidth of a microstrip patch antenna is expressed in terms of minimum achievable reflection...
The use of non-Foster components in wideband matching networks for improvement of effective diversit...