Boundary Element Analysis of Shielded Microstrip Lines with Dielectric Layers
Summary :
A boundary element method is presented for the analysis of shielded microstrip lines with dielectric layers. The formulation is based on (a) the Green's second identity, (b) the method of subdomains, (c) the constant boundary element discretization and (d) the discrete conservation law of total charge. In particular, the above (b) and (d) are originated for dealing with the dielectric layers. Numerical results for the balance-type and coplanar-type striplines are shown in order to examine the validity of the boundary element method. By user of the technique of subdivision into boundary element, it is also found that the calculated values for line characteristics are with the second-order accuracy.
- Publication
- IEICE TRANSACTIONS on transactions Vol.E67-E No.11 pp.585-590
- Publication Date
- 1984/11/25
- Publicized
- Online ISSN
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- Type of Manuscript
- PAPER
- Category
- Mathematics
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Masatoshi IKEUCHI, "Boundary Element Analysis of Shielded Microstrip Lines with Dielectric Layers" in IEICE TRANSACTIONS on transactions,
vol. E67-E, no. 11, pp. 585-590, November 1984, doi: .
Abstract: A boundary element method is presented for the analysis of shielded microstrip lines with dielectric layers. The formulation is based on (a) the Green's second identity, (b) the method of subdomains, (c) the constant boundary element discretization and (d) the discrete conservation law of total charge. In particular, the above (b) and (d) are originated for dealing with the dielectric layers. Numerical results for the balance-type and coplanar-type striplines are shown in order to examine the validity of the boundary element method. By user of the technique of subdivision into boundary element, it is also found that the calculated values for line characteristics are with the second-order accuracy.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e67-e_11_585/_p
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@ARTICLE{e67-e_11_585,
author={Masatoshi IKEUCHI, },
journal={IEICE TRANSACTIONS on transactions},
title={Boundary Element Analysis of Shielded Microstrip Lines with Dielectric Layers},
year={1984},
volume={E67-E},
number={11},
pages={585-590},
abstract={A boundary element method is presented for the analysis of shielded microstrip lines with dielectric layers. The formulation is based on (a) the Green's second identity, (b) the method of subdomains, (c) the constant boundary element discretization and (d) the discrete conservation law of total charge. In particular, the above (b) and (d) are originated for dealing with the dielectric layers. Numerical results for the balance-type and coplanar-type striplines are shown in order to examine the validity of the boundary element method. By user of the technique of subdivision into boundary element, it is also found that the calculated values for line characteristics are with the second-order accuracy.},
keywords={},
doi={},
ISSN={},
month={November},}
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TY - JOUR
TI - Boundary Element Analysis of Shielded Microstrip Lines with Dielectric Layers
T2 - IEICE TRANSACTIONS on transactions
SP - 585
EP - 590
AU - Masatoshi IKEUCHI
PY - 1984
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E67-E
IS - 11
JA - IEICE TRANSACTIONS on transactions
Y1 - November 1984
AB - A boundary element method is presented for the analysis of shielded microstrip lines with dielectric layers. The formulation is based on (a) the Green's second identity, (b) the method of subdomains, (c) the constant boundary element discretization and (d) the discrete conservation law of total charge. In particular, the above (b) and (d) are originated for dealing with the dielectric layers. Numerical results for the balance-type and coplanar-type striplines are shown in order to examine the validity of the boundary element method. By user of the technique of subdivision into boundary element, it is also found that the calculated values for line characteristics are with the second-order accuracy.
ER -
English
