**Chapter 3**

**References**

House, 2003.

July 2016, USA.

ISBN 9780367409135.

2004.

USA.

[1] J. Rogers, C. Plett "Radio frequency Integrated Circuit Design", Artech

*Innovations in Ultra-WideBand Technologies*

[11] Reuven Shavit, Albert Sabban, Michael Sigalov, Avihai Lahman, Zeev Iluz, Naftali Chayat and Solon Spiegel "microwave engineering research activity in Israel", IEEE Microwave Magazine, May 2018, 19(3):129-135. DOI: 10.1109/MMM.2018.2802281

[12] G.P. Gauthier, G.P. Raskin, G.M. Rebiez., P.B. Kathei, "A 94GHz Micromachined Aperture- Coupled Microstrip Antenna", I.E.E.E Trans. on Antenna and Propagation Vol. 47, No. 12, pp. 1761-1766, December 1999.

[13] G. de Lange et. al., "A 3\*3 mm-wave micro-machined imaging array with sis mixers", Appl. Phys. Lett. 75 (6),

[14] A. Rahman et. al., "Micro-machined room temperature micro bolometers for MM-wave detection", Appl. Phys. Lett.

68 (14), pp. 2020-2022, 1996.

[15] A. Sabban and K.C. Gupta, "Characterization of Radiation Loss from Microstrip Discontinuities Using a

Multiport Network Modeling Approach", I.E.E.E Trans. on M.T.T, Vol. 39, No. 4, April 1991, pp. 705-712.

[16] Keysight software, http://www. keysight.com/en/pc-1297113/advanceddesign-system-ads?cc=IL&lc=eng

pp. 868-870, 1999.

Introduction to Microelectromechanical System Engineering", Artech House,

[3] Albert Sabban (2016). "Wideband RF Technologies and Antenna in Microwave Frequencies", Wiley Sons,

[4] Albert Sabban Editor and Author (2020). Wearable Systems and

[5] Albert Sabban (2017). "Novel

Antennas Technologies for 5G, IOT and Medical Systems CRC PRESS, TAYLOR & FRANCIS GROUP, December 2020.

Wearable Antennas for Communication and Medical Systems", TAYLOR & FRANCIS GROUP, October 2017.

[6] Albert Sabban (2015). "Low visibility Antennas for communication systems", TAYLOR & FRANCIS GROUP, 2015,

[7] S. A. Mass, "Nonlinear Microwave and RF Circuits", Artech House, 1997.

[8] Abdeen Hebat-Allah Yehia; Yuan Shuai; Schumacher Hermann; Ziegler Volker; Meusling Askold; Feldle Peter. "10 to 40 GHz Superheterodyne Receiver Frontend in 0.13 μm SiGe BiCMOS Technology". Frequenz, Volume 71, pp.151-160. March 2017.

[9] A. Sabban, "Microstrip Antenna Arrays", 2011, Microstrip Antennas, Nasimuddin Nasimuddin (Ed.), ISBN: 978-953-307-247-0, InTech, pp. 361-384,

[10] A. Sabban, "Applications of MM Wave Microstrip Antenna Arrays" ISSSE 2007 Conference, Montreal

Canada, August 2007.

**48**

[2] N. Maluf, K. Williams, "An
