This paper investigates design considerations and challenges of integrating on-chip antennas in nanoscale CMOS technology at millimeter-wave (mm-wave) to achieve a compact front-end receiver for 5G communication systems. Solutions to overcome these challenges are offered and realized in digital 28-nm CMOS. A monolithic on-chip antenna is designed and optimized in the presence of rigorous metal density rules and other back-end-of-the-line (BEoL) challenges of the nanoscale technology. The proposed antenna structure further exploits ground metallization on a PCB board acting as a reflector to increase its radiation efficiency and power gain by 37.3% and 9.8 dB, respectively, while decreasing the silicon area up to 30% compared to the previous...
[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...
Thesis (Ph.D.)--University of Washington, 2021The demands for higher data rates continue to drive re...
[[abstract]]The feasibility of integrating compact antennas and required circuits for implementing w...
This paper investigates design considerations and challenges of integrating on-chip antennas in nano...
The 41st International Conference of the IEEE Engineering in Medicine and Biology Society, Berlin, G...
This paper discusses challenges, design issues and possible solutions to get mm-Wave signals off-chi...
This paper presents the first-ever millimeter wave on-chip antenna (AoC) in 28 nm CMOS technology. T...
The paper presents several feasible millimeter wave on-chip antenna designs suitable to be fabricate...
This thesis focuses on the design and characterization of millimeter-wave monolithic active and pass...
This paper presents a design exploration, at both system and circuit levels, of integrated transceiv...
CMOS is the technology of choice for mass production digital circuits, key to achieve low cost and l...
This letter presents a monolithically integrated on-chip antenna fabricated in 0.18 mu m standard CM...
Recent advancements in silicon technology have paved the way for the development of integrated trans...
Aggressive scaling of (Bi)CMOS technology has enabled the designs of highly integrated transmitting ...
In this work, four designs of (Bi)CMOS on-chip antenna (OCA) at 90GHz and 140GHz are shown and compa...
[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...
Thesis (Ph.D.)--University of Washington, 2021The demands for higher data rates continue to drive re...
[[abstract]]The feasibility of integrating compact antennas and required circuits for implementing w...
This paper investigates design considerations and challenges of integrating on-chip antennas in nano...
The 41st International Conference of the IEEE Engineering in Medicine and Biology Society, Berlin, G...
This paper discusses challenges, design issues and possible solutions to get mm-Wave signals off-chi...
This paper presents the first-ever millimeter wave on-chip antenna (AoC) in 28 nm CMOS technology. T...
The paper presents several feasible millimeter wave on-chip antenna designs suitable to be fabricate...
This thesis focuses on the design and characterization of millimeter-wave monolithic active and pass...
This paper presents a design exploration, at both system and circuit levels, of integrated transceiv...
CMOS is the technology of choice for mass production digital circuits, key to achieve low cost and l...
This letter presents a monolithically integrated on-chip antenna fabricated in 0.18 mu m standard CM...
Recent advancements in silicon technology have paved the way for the development of integrated trans...
Aggressive scaling of (Bi)CMOS technology has enabled the designs of highly integrated transmitting ...
In this work, four designs of (Bi)CMOS on-chip antenna (OCA) at 90GHz and 140GHz are shown and compa...
[[abstract]]On the basis of the current status of silicon based MMICs, it is possible to implement m...
Thesis (Ph.D.)--University of Washington, 2021The demands for higher data rates continue to drive re...
[[abstract]]The feasibility of integrating compact antennas and required circuits for implementing w...