DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU

Zülfü Genç

Research Article

DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU

Year 2008, Volume: 6 Issue: 2, 169 - 176, 30.03.2008

Abstract

Bu çalışmada düzlemsel katmanlı ortamlarda bulunan pasif mikrodalga
devrelerinin elektromanyetik simü-lasyonu için geliştirilen ve EMSOLVE olarak
adlandırılan bilgisayar destekli bir tasarım (CAD) yazılımının detayları
sunulmuştur. Bu yazılımda kullanılan sayısal yöntemin temelini kapalı formdaki
Green fonksiyon-ları ile birlikte kullanılan ve karma potansiyel integral
denklemi (MPIE) ile ilişkili moment yöntemi oluştur-maktadır.

Keywords

Düzlemsel Katmanlı Ortam, Elektromanyetik Simülasyon, MPIE, Moment Metodu

References

1. Grzegorczyk, T.M., Mosig, J.R., 2003, Full-Wave Analysis of Antennas Containing Hori-zontal and Vertical Metallizations Embedded in Planar Multilayered Media, IEEE Trans. On Antennas and Pro., vol.51, no.11, 3047-3053
2. Ling, F., Jiao, D., Jin, J.M., 1999, Efficient Elec-tromagnetic Modeling of Microstrip Structures in Multilayer Media, IEEE Trans. Microwave Theory and Tech., vol.47, no.9, 1810-1818.
3. Alatan, L., Aksun, M.I., Leblebicioğlu, K., Birand, M.T., 1999, Use of Computationally Efficient Method of Moments in the Optimiza-tion of Printed Antennas, IEEE Trans. On Antennas and Pro., vol.47, no.4, 725-732.
4. Kınayman, N., Dural, G., Aksun, M.I., A Nume-rically Efficient Technique fort he Anlaysis of Slots in Layered Media, 1998, IEEE Trans. Microwave Theory and Tech., vol.46, no.4, 430-432.
5. Tsai, M.Ju, De Flaviis, F., Fordham, O., Alexopoulos, N.G., 1997, Modeling Planar Arbitrary Shaped Microstrip Elements in Multilayered Media, IEEE Trans. Microwave Theory and Tech., vol.45, no.3, 330-337.
6. Kınayman, N., Aksun, M.I., 1997, Efficient and Accurate EM Simulation Technique for Analysis and Design of MMICs, 1997, Int. J. MIMICAE, vol. 7, 344-358.
7. Shuley, N.V., Boix, R.R., Medina, F., Horno, M., On the Fast Approximation of Green’s Functions in MPIE Formulations for Planar Layered Media, 2002, IEEE Trans. Microwave Theory and Tech., vol.50, no.9, 2185-2192.
8. Mosig, J.R., 1988, Arbitrarily Shaped Microstrip Structures and Their Analysis with a Mixed Potential Integral Equation, IEEE Trans. on Mic-rowave Theory Tech., vol. MTT-36, 314–323.
9. Aksun, M.I., Mittra, R., 1992, Derivation of Closed-Form Green’s Functions for a General Microstrip Geometry, IEEE Trans. on Micro-wave Theory Tech., vol. 40, 2055-2062.
10. Dural, G., Aksun, M.I., 1995, Closed-Form Green’s Functions for General Sources and Stra-tified Media, IEEE Trans. Microwave Theory and Tech., vol.43, no.7, 1545-1552.
11. Aksun, M.I., 1996, A Robust Approach for the Derivation of Closed-Form Green’s Functions, IEEE Trans. Microwave Theory and Tech., vol.44, no.5, 651-658.
12. Hua, Y., Sarkar, T.P., 1989, Generalized Pencil-of-Function Method for Extracting Poles of an EM System From its Transient Response, IEEE Trans. on Antennas and Propagation, vol. AP-37, 229-234.

Year 2008, Volume: 6 Issue: 2, 169 - 176, 30.03.2008

Zülfü Genç

Abstract

References

1. Grzegorczyk, T.M., Mosig, J.R., 2003, Full-Wave Analysis of Antennas Containing Hori-zontal and Vertical Metallizations Embedded in Planar Multilayered Media, IEEE Trans. On Antennas and Pro., vol.51, no.11, 3047-3053
2. Ling, F., Jiao, D., Jin, J.M., 1999, Efficient Elec-tromagnetic Modeling of Microstrip Structures in Multilayer Media, IEEE Trans. Microwave Theory and Tech., vol.47, no.9, 1810-1818.
3. Alatan, L., Aksun, M.I., Leblebicioğlu, K., Birand, M.T., 1999, Use of Computationally Efficient Method of Moments in the Optimiza-tion of Printed Antennas, IEEE Trans. On Antennas and Pro., vol.47, no.4, 725-732.
4. Kınayman, N., Dural, G., Aksun, M.I., A Nume-rically Efficient Technique fort he Anlaysis of Slots in Layered Media, 1998, IEEE Trans. Microwave Theory and Tech., vol.46, no.4, 430-432.
5. Tsai, M.Ju, De Flaviis, F., Fordham, O., Alexopoulos, N.G., 1997, Modeling Planar Arbitrary Shaped Microstrip Elements in Multilayered Media, IEEE Trans. Microwave Theory and Tech., vol.45, no.3, 330-337.
6. Kınayman, N., Aksun, M.I., 1997, Efficient and Accurate EM Simulation Technique for Analysis and Design of MMICs, 1997, Int. J. MIMICAE, vol. 7, 344-358.
7. Shuley, N.V., Boix, R.R., Medina, F., Horno, M., On the Fast Approximation of Green’s Functions in MPIE Formulations for Planar Layered Media, 2002, IEEE Trans. Microwave Theory and Tech., vol.50, no.9, 2185-2192.
8. Mosig, J.R., 1988, Arbitrarily Shaped Microstrip Structures and Their Analysis with a Mixed Potential Integral Equation, IEEE Trans. on Mic-rowave Theory Tech., vol. MTT-36, 314–323.
9. Aksun, M.I., Mittra, R., 1992, Derivation of Closed-Form Green’s Functions for a General Microstrip Geometry, IEEE Trans. on Micro-wave Theory Tech., vol. 40, 2055-2062.
10. Dural, G., Aksun, M.I., 1995, Closed-Form Green’s Functions for General Sources and Stra-tified Media, IEEE Trans. Microwave Theory and Tech., vol.43, no.7, 1545-1552.
11. Aksun, M.I., 1996, A Robust Approach for the Derivation of Closed-Form Green’s Functions, IEEE Trans. Microwave Theory and Tech., vol.44, no.5, 651-658.
12. Hua, Y., Sarkar, T.P., 1989, Generalized Pencil-of-Function Method for Extracting Poles of an EM System From its Transient Response, IEEE Trans. on Antennas and Propagation, vol. AP-37, 229-234.

There are 12 citations in total.

Details

Primary Language	Turkish
Journal Section	Articles
Authors	Zülfü Genç This is me
Publication Date	March 30, 2008
Published in Issue	Year 2008 Volume: 6 Issue: 2

Cite

APA	Genç, Z. (2008). DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU. Fırat Üniversitesi Doğu Araştırmaları Dergisi, 6(2), 169-176.
AMA	Genç Z. DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU. (DAD). March 2008;6(2):169-176.
Chicago	Genç, Zülfü. “DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU”. Fırat Üniversitesi Doğu Araştırmaları Dergisi 6, no. 2 (March 2008): 169-76.
EndNote	Genç Z (March 1, 2008) DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU. Fırat Üniversitesi Doğu Araştırmaları Dergisi 6 2 169–176.
IEEE	Z. Genç, “DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU”, (DAD), vol. 6, no. 2, pp. 169–176, 2008.
ISNAD	Genç, Zülfü. “DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU”. Fırat Üniversitesi Doğu Araştırmaları Dergisi 6/2 (March 2008), 169-176.
JAMA	Genç Z. DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU. (DAD). 2008;6:169–176.
MLA	Genç, Zülfü. “DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU”. Fırat Üniversitesi Doğu Araştırmaları Dergisi, vol. 6, no. 2, 2008, pp. 169-76.
Vancouver	Genç Z. DÜZLEMSEL KATMANLI ORTAMDAKİ MİKRODALGA DEVRELERİN ELEKTROMANYETİK SİMÜLASYONU. (DAD). 2008;6(2):169-76.