An Improved Circuit Theory for the Analysis of Longer Co-planar Dipole Antennas
Summary :
The valid region for the application of the conventional Improved Circuit Theory (ICT) in the analysis of wire antennas is established. To further extend the application of ICT to the analysis of much longer antennas, Tai's trial function is used to derive new formulas for the impedance matrix. Unlike the conventional ICT trial function, Tai's trial functions lead to input impedances which are finite irrespective of antenna length. Results of the new ICT impedance formulas are comparable in accuracy with the general method of moments. Moreover, since all the elements of the new formula have been expressed in closed-form, the resulting ICT algorithm is still superior in terms of computer running time with lesser storage requirement compared to other conventional methods like method of moments. This would enhance ICT applications in CAD/CAE systems.
- Publication
- IEICE TRANSACTIONS on Communications Vol.E80-B No.2 pp.389-394
- Publication Date
- 1997/02/25
- Publicized
- Online ISSN
- DOI
- Type of Manuscript
- Category
- Antennas and Propagation
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Adam Icarus IMORO, Yoshihisa KANI, Naoki INAGAKI, Nobuyoshi KIKUMA, "An Improved Circuit Theory for the Analysis of Longer Co-planar Dipole Antennas" in IEICE TRANSACTIONS on Communications,
vol. E80-B, no. 2, pp. 389-394, February 1997, doi: .
Abstract: The valid region for the application of the conventional Improved Circuit Theory (ICT) in the analysis of wire antennas is established. To further extend the application of ICT to the analysis of much longer antennas, Tai's trial function is used to derive new formulas for the impedance matrix. Unlike the conventional ICT trial function, Tai's trial functions lead to input impedances which are finite irrespective of antenna length. Results of the new ICT impedance formulas are comparable in accuracy with the general method of moments. Moreover, since all the elements of the new formula have been expressed in closed-form, the resulting ICT algorithm is still superior in terms of computer running time with lesser storage requirement compared to other conventional methods like method of moments. This would enhance ICT applications in CAD/CAE systems.
URL: https://globals.ieice.org/en_transactions/communications/10.1587/e80-b_2_389/_p
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@ARTICLE{e80-b_2_389,
author={Adam Icarus IMORO, Yoshihisa KANI, Naoki INAGAKI, Nobuyoshi KIKUMA, },
journal={IEICE TRANSACTIONS on Communications},
title={An Improved Circuit Theory for the Analysis of Longer Co-planar Dipole Antennas},
year={1997},
volume={E80-B},
number={2},
pages={389-394},
abstract={The valid region for the application of the conventional Improved Circuit Theory (ICT) in the analysis of wire antennas is established. To further extend the application of ICT to the analysis of much longer antennas, Tai's trial function is used to derive new formulas for the impedance matrix. Unlike the conventional ICT trial function, Tai's trial functions lead to input impedances which are finite irrespective of antenna length. Results of the new ICT impedance formulas are comparable in accuracy with the general method of moments. Moreover, since all the elements of the new formula have been expressed in closed-form, the resulting ICT algorithm is still superior in terms of computer running time with lesser storage requirement compared to other conventional methods like method of moments. This would enhance ICT applications in CAD/CAE systems.},
keywords={},
doi={},
ISSN={},
month={February},}
Copy
TY - JOUR
TI - An Improved Circuit Theory for the Analysis of Longer Co-planar Dipole Antennas
T2 - IEICE TRANSACTIONS on Communications
SP - 389
EP - 394
AU - Adam Icarus IMORO
AU - Yoshihisa KANI
AU - Naoki INAGAKI
AU - Nobuyoshi KIKUMA
PY - 1997
DO -
JO - IEICE TRANSACTIONS on Communications
SN -
VL - E80-B
IS - 2
JA - IEICE TRANSACTIONS on Communications
Y1 - February 1997
AB - The valid region for the application of the conventional Improved Circuit Theory (ICT) in the analysis of wire antennas is established. To further extend the application of ICT to the analysis of much longer antennas, Tai's trial function is used to derive new formulas for the impedance matrix. Unlike the conventional ICT trial function, Tai's trial functions lead to input impedances which are finite irrespective of antenna length. Results of the new ICT impedance formulas are comparable in accuracy with the general method of moments. Moreover, since all the elements of the new formula have been expressed in closed-form, the resulting ICT algorithm is still superior in terms of computer running time with lesser storage requirement compared to other conventional methods like method of moments. This would enhance ICT applications in CAD/CAE systems.
ER -
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