Abstract:
A millimeter-wave active inductor that exploits the current amplification between two spirals of an integrated transformer is herein presented. The circuit has been desig...Show MoreMetadata
Abstract:
A millimeter-wave active inductor that exploits the current amplification between two spirals of an integrated transformer is herein presented. The circuit has been designed in 65nm bulk CMOS technology. Post-layout simulation results have shown an equivalent inductance of 116 pH with a quality factor exceeding 600 at 55 GHz.
Published in: 2012 19th IEEE International Conference on Electronics, Circuits, and Systems (ICECS 2012)
Date of Conference: 09-12 December 2012
Date Added to IEEE Xplore: 18 February 2013
ISBN Information:
Power-efficient CMOS integrated circuit for sub-THz massive MIMO wireless communication
Nan Li,Hao Yu,Yuan Liang,Xiuping Li
Performance Analysis and Simulation of Spiral and Active Inductor in 90nm CMOS Technology
Ahmad S. Sayem,Sakera Rashid,Sohely Akter,Omar Faruqe,Md Hossam-E-Haider
Application of hybrid millimetre wave technology for green wireless communications
Yana Kremenetskaya,Sergey Markov,Svetlana Morozova
A magnetic power and communication interface for a CMOS integrated circuit
L.A. Glasser,A.C. Malamy,C.W. Selvidge
Grounded active inductors design optimization for fQmax = 14.2GHz using a 130 nm CMOS technology
Mrinalinee Pandey,António Canelas,Ricardo Póvoa,Jorge Torres,J. Costa Freire,Nuno Lourenço,Nuno Horta
Millimeter-wave CMOS integrated circuits for gigabit WPAN applications
Tian-Wei Huang,Huei Wang
Low-power ultrahigh-speed wireless communication with short-millimeter-wave CMOS technology
Minoru Fujishima
High quality-factor and inductance of symmetric differential-pair structure active inductor using a feedback resistance design
Kyu Seok Hwang,Choon Sik Cho,Jae W. Lee,Jaeheung Kim
Contents 