| PIER M | |
| Progress In Electromagnetics Research M | ISSN: 1937-8726 |
Home > Vol. 8 > pp. 195-205
DYADIC GREEN FUNCTIONS FOR COAXIAL TUBULAR FILTERSBy R. Pazoki and J. Rashed-MohasselAbstract: In this work, the dyadic Green functions for different parts of a coaxial tubular filter are derived. Using the obtained data, it is possible to consider the circuit model of a coaxial tubular filter. Moreover, the reactance due to the discontinuity of the matching section (dielectric loaded part) is calculated.
Citation:
References:
2. Cheng, D. K., Field and Wave Electromagnetics, Addison Wesley, 1983. 3. DeCarlo, R. and C. Meirina, "Parameter identification and adaptive control of an ultrafiltration process in hemodialysis," Proceedings of the 2000 American Control Conference, Vol. 5, 2967-2971, 2000. 4. Meirina, C. and R. A. DeCarlo, "Initial results in the adaptive control of ultrafiltration in hemodialysis," Proceedings of the 38th IEEE Conference on Decision and Control, Vol. 5, 5129-5130, 1999. 5. Huang, Q., J.-F. Liang, D. Zhang, and G.-C. Liang, "Direct synthesis of tubular bandpass filters with frequency-dependent inductors," IEEE MTT-S International Microwave Symposium Digest, Vol. 1, 371-374, 1998. 6. Wu, B., T. Su, B. Li, and C. H. Liang, "Design of tubular filter based on curve-fitting method," Journal of Electromagnetic Waves and Applications, Vol. 20, No. 8, 1071-1080, 2007. 8. Johnson, R. C., Antenna Engineering Handbook, 3rd Ed., McGraw Hill, 1993. 8. Tai, C.-T., Dyadic Green Functions in Electromagnetic Theory, 2nd Ed., IEEE Press, 1993. |