5.13: References
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- 41052
[1] B. Biswas, “Modeling and simulation of high speed interconnects,” Master’s thesis, North Carolina State University, 1998.
[2] E. Hammerstad and O. Jensen, “Accurate models for microstrip computer-aided design,” in 1980 IEEE MTT-S Int. Microwave Symp. Digest, May 1980, pp. 407–409.
[3] M. Kirschning and R. Jansen, “Accurate wide-range design equations for the frequency-dependent characteristic of parallel coupled microstrip lines,” IEEE Trans. on Microwave Theory and Techniques, vol. 32, no. 1, pp. 83–90, Jan. 1984.
[4] ——, “Accurate wide-range design equations for the frequency-dependent characteristic of parallel coupled microstrip lines,” IEEE Trans. on Microwave Theory and Techniques, vol. 32, no. 1, pp. 83–90, Jan. 1984.
[5] T. Edwards and M. Steer, Foundations for Microstrip Circuit Design. John Wiley & Sons, 2016.
[6] http://www.synergymwave.com.
[7] http://www.minicircuits.com.
[8] J. Lange, “Interdigitated strip-line quadrature hybrid,” in 1969 G-MTT Int. Microwave Symp., May 1969, pp. 10–13.
[9] A. Johnson and G. Zysman, “Coupled transmission line networks in an inhomogeneous dielectric medium,” in 1969 G-MTT Int. Microwave Symp., May 1969, pp. 329–337.
[10] R. Mongia, I. Bahl, and P. Bhartia, RF and Microwave Coupled-line Circuits. Artech House, 1999.
[11] J.-S. Hong and M. Lancaster, Microstrip Filters for RF/Microwave Applications. John Wiley & Sons, 2001.
[12] E. Jones, “Coupled-strip-transmission-line filters and directional couplers,” Microwave Theory and Techniques, IRE Trans. on, vol. 4, no. 2, pp. 75–81, Apr. 1956.
[13] I. Hunter, Theory and Design of Microwave Filters. IEE Press, 2001.
[14] V. Tripathi and J. Rettig, “A spice model for multiple coupled microstrips and other transmission lines,” IEEE Trans. on Microwave Theory and Techniques, vol. 33, no. 12, pp. 1513–1518, Dec. 1985.
[15] M. Steer, Microwave and RF Design, Networks, 3rd ed. North Carolina State University, 2019.
[16] J. Malherbe, Microwave Transmission Line Filters. Artech House, 1979.