1. [B-1] Baker, R.J. (2010). CMOS: Circuit Design, Layout, and Simulation, 3e. New Jersey: IEEE Press and Wiley.
  2. [B-2] Bowick, C.J. (2007). RF Circuit Design, 2e. Elsevier (Newnes).
  3. [C-1] Carusone, T.C., Johns, D.A., and Martin, K.W. (2012). Analog Integrated Circuit Design. New Jersey: Wiley.
  4. [C-2] Chang, K., Bahl, I., and Nair, V. (2002). RF and Microwave Circuit and Component Design for Wireless Systems. New Jersey: Wiley.
  5. [C-3] Colclaser, R.A., Neamen, D.A., and Hawkins, C.F. (1984). Electronic Circuit Analysis: Basic Principles. New Jersey: Wiley.
  6. [D-1] Davis, W.A. and Agarwal, K. (2001). Radio Frequency Circuit Design. New Jersey: Wiley.
  7. [E-1] Edwards, M.L. and Sinsky, J.H. (December 1992). A new criteria for linear 2‐port stability using a single geometrically derived parameter. IEEE Trans. Microwave Theory Tech. MTT‐40: 2803–2811.
  8. [E-2] Elliot, Rod, Precision Rectifiers.
  9. [F-1] Franco, S. (1995). Electric Circuits Fundamentals. Philadelphia, Pennsylvania: Saunders College Publishing.
  10. [F-2] Frickey, D.A. (1994). Conversions between S, Z, Y, h, ABCD, and T parameters which are valid for complex source and load impedances. IEEE Trans. Microwave Theory Tech. 42 (2).
  11. [H-1] Herrick, R.J. (2003). DC/AC Circuits and Electronics: Principles & Applications. New York: Thomson Delmar Learning, Inc.
  12. [H-2] Hu, C.C. (2009). Modern Semiconductor Devices for Integrated Circuits. Pearson Education.
  13. [H-3] Huelsman, L.P. (1998). Basic ...

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