Savoj, J., & Razavi, B. (2001). High-speed CMOS circuits for optical receivers. Boston: Kluwer Academic Publishers.
Razavi, B. (1998). RF microelectronics. Upper Saddle River: Prentice Hall.
Oliveira, L. B., Fernandes, J. R., Filanovsky, I. M., Verhoeven, C. J. M., & Silva, Manuel M. (2008). Analysis and design of quadrature oscillators. Analog Integrated Circuits and Signal Processing, New York: Springer.
Yodprasit, U., & Enz, C. C. (2004). Simple topology for low-voltage and low-power RF quadrature oscillators. Electronics Letters, 40, 458–459.
Casha, O., Grech, I., & Micallef, J. (2007). Comparative study of gigahertz CMOS LC quadrature voltage-controlled oscillators with relevance to phase noise. Analog Integrated Circuits and Signal Processing, 52, 1–14.
Murji, R., & Jamal Deen, M. (2005). Radio frequency CMOS integrated circuits for low power transceiver applications. The 3rd International IEEE-NEWCAS Conference (pp. 17–20). Montreal, Canada: IEEE-NEWCAS.
Rofougaran, A., et al. (1998). A single-chip 900-MHz spread-spectrum wireless transceiver in 1-μm CMOS-Part I: Architecture and transmitted design. IEEE Journal of Solid-State Circuits, 33, 515–534.
Zarre Dooghabadi, M., & Naseh, S. (2007). A new quadrature LC-oscillator. ISCAS, 2007, 1701–1703.
Andreani, P., Bonfanti, A., Romano, L., & Samori, C. (2002). Analysis and design of 1.8 GHz CMOS LC quadrature oscillators. IEEE Journal of Solid-State Circuits., 37, 1737–1747.
Kim, H. R., Cha, C. Y., Oh, S. M., Yang, M. S., & Lee, S. G. (2004). A very low-power quadrature VCO with back gated coupling. IEEE Journal of Solid-State Circuits, 39, 952–955.
Tiebout, M. (2001). Low-power low-phase-noise differentially tuned quadrature vco design in standard CMOS. IEEE Journal of Solid-State Circuits, 36, 1018–1024.
Tortori, P., et al. (2009). Quadrature VCOs based on direct second harmonic locking: Theoretical analysis and experimental validation. International Journal of Circuit Theory and Applications, 38, 1063–1086.
Jackson, B. R., & Saavedra, C. E. (2007). A 3 GHz CMOS quadrature oscillator using active superharmonic coupling. Proceeding of 37th European Microwave Conference (pp. 1109–1112). Munich, Germany: EuMW.
Gierkink, S.L.J. et al. (2003). A low-phase-noise 5-GHz CMOS quadrature VCO using superharmonic coupling. IEEE Journal Solid-State Circuits. 38, 1148–1154.
Hancock, T. M., & Rebeiz, G. (2004). A novel superharmonic coupling topology for quadrature design at 6 GHZ. In IEEE Radio Frequency Integrated Circuits Symposium, 6–8 June 2004 (pp. 285–288). Forth Worth, TX: IEEE.
Ebrahimi, E., & Naseh, S. (2011). A new robust capacitively coupled second harmonic quadrature LC oscillator. Analog Integrated Circuits and Signal Processing, 66, 269–275.
Soltanian, B., & Kinget, P. (2006). A low phase noise quadrature LC- VCO using capacitive common-source coupling. In European Solid-State Circuits Conference (pp. 436–439). Switzerland: ESSCIRC.
Naseh, S., Zarre Dooghabadi, M. & Jamal Deen, M. (2008). A low-voltage low-noise superharmonic quadrature oscillator. 15th IEEE International Conference on Electronics, Circuits and Systems, (pp. 400–403). Malta: ICECS.
Lo, C. W., & Luong, H. C. (1999). 2-V 900-MHz quadrature coupled LC oscillators with improved amplitude and phase matchings. ISCAS, 1999, 585–588.
Jamal Deen, M., Murji, R., Fakhr, A., Jafferali, N., & Ngan, W. L. (2005). Low-power CMOS integrated circuits for radio frequency applications. In IEE Proceedings of Circuits Devices Systems (pp. 509–522). England: IET (The Institution of Engineering and Technology).
Margarit, M. A., Joo Leong, T., Meyer, R. G., & Deen, M. J. (1999). A low-noise low-power VCO with automatic amplitude control for wireless applications. IEEE Journal of Solid-State Circuits, 34, 761–771.
Jang, S. L., Huang, S.-H., Liu, C.-C., & Juang, M.-H. (2009). CMOS Colpitts quadrature VCO using the body injection-locked coupling technique. IEEE Microwave and Wireless Components letters, 19, 230–232.