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  • Print publication year: 2018
  • Online publication date: June 2018

1 - Linear and Nonlinear Circuits

[1]Benedetto, S., Biglieri, E. and Daffara, R., “Modeling and performance evaluation of nonlinear satellite links – a Volterra series approach,” IEEE Trans. Aerospace Electronic Syst., vol. AES-15, Apr. 1979, 494507.
[2]Nunes, L. C., Cabral, P. M. and Pedro, J. C., “AM/AM and AM/PM distortion generation mechanisms in Si LDMOS and GaN HEMT based RF power amplifiers,” IEEE Trans. Microw. Theory Techn., vol. MTT-62, Apr. 2014, 799809.
[3]Pedro, J. C. and Carvalho, N. B., “On the use of multitone techniques for assessing RF components’ intermodulation distortion,” IEEE Trans. on Microw. Theory Techn., vol. 47, Dec. 1999, 23932402.
[4]Pedro, J. C. and Carvalho, N. B., Intermodulation Distortion in Microwave and Wireless Circuits, Norwood, MA: Artech House, 2003.
[5]Boulejfen, N., Harguem, A., and Ghannouchi, F. A., “New closed-form expressions for the prediction of multitone intermodulation distortion in fifth-order nonlinear RF circuits/systems,” IEEE Trans. Microw. Theory Techn., vol. MTT-52, Jan. 2004, 121132.
[6]Bosch, W. and Gatti, G., “Measurement and simulation of memory effects in predistortion linearizers,” IEEE Trans. Microw. Theory Techn., vol. MTT-37, Dec. 1989, 18851890.
[7]Carvalho, N. B. and Pedro, J. C., “A comprehensive explanation of distortion sideband asymmetries,” IEEE Trans. Microw. Theory Techn., vol. MTT-50, Sep. 2002, 20902101.
[8]Morgan, D. R., Ma, Z., Kim, J., Zierdt, M. G. and Pastalan, J., “A generalized memory polynomial model for digital predistortion of RF power amplifiers,” IEEE Trans. Sig. Process., vol. SP-54, Oct. 2006, 38523860.
[9]Verspecht, J., Horn, J., Betts, L., Gunyan, D., Pollard, R., Gillease, C. and Root, D. E., “Extension of X-parameters to include long-term dynamic memory effects,” IEEE MTT-S Int. Microw. Symp. Dig., 2009, 741–744.
[10]Cunha, T. R., Lima, E. G. and Pedro, J. C., “Validation and physical interpretation of the power-amplifier polar volterra model,” IEEE Trans. Microw. Theory Techn., vol. MTT-58, Dec. 2010, 40124021.
[11]Meissner, A., “Production of waves by cathode ray tubes,” U.S. Patent 1 924 796 A, Aug. 29, 1933 (filed Mar. 16, 1914).
[12]Matsumoto, T., “Chaos in electronic circuits,” Proc. IEEE, vol. 75, Aug. 1987, 10331057.
[13]Chua, L. O., Wu, C. W., Huang, A. and Zhong, G.-Q., “A universal circuit for studying and generating chaos. Part I. Routes to chaos,” IEEE Trans. Circ. Syst., vol. CAS-40, Oct. 1993, 732744.
[14]Chen, G. and Ueta, T. (Editors), Chaos in Circuits and Systems, Singapore: World Scientific Publishing, 2002.
[15]Suárez, A., Analysis and Design of Autonomous Microwave Circuits, New York: John Wiley & Sons, 2009.
[16]Crosmun, A. M. and Maas, S. A., “Minimization of intermodulation distortion in GaAs MESFET small-signal amplifiers,” IEEE Trans. Microw. Theory Techn., vol. MTT-37, Sept. 1989, 14111417.
[17]Pedro, J. C. and Perez, J., “Accurate simulation of GaAs MESFET’s intermodulation distortion using a new drain-source current model,” IEEE Trans. Microw. Theory Techn., vol. MTT-42, Jan. 1994, 2533.
[18]Mathews, V. J. and Sicuranza, G. L., Polynomial Signal Processing, New York, NY: John Wiley & Sons, 2000.
[19]Schetzen, M., The Volterra and Wiener Theories of Nonlinear Systems, New York, NY: John Wiley & Sons, 1980.
[20]Gupta, M., Jin, L. and Homma, N., Static and Dynamic Neural Networks, New York, NY: John Wiley & Sons, 2003.