Add to ORKGThis paper presents the first-ever millimeter wave on-chip antenna (AoC) in 28 nm CMOS technology. The addition of artificial magnetic conductor (AMC) can increase the antenna\u27s power gain and radiation efficiency to -1.75 dBi and 22%, respectively, with an occupied area of 0.95 mm×4.75 mm at 38 GHz. This structure is intended for fully integrated single-chip nanometer CMOS transceivers for 5G communication systems
This letter presents a monolithically integrated on-chip antenna fabricated in 0.18 mu m standard CM...
This paper describes a chip-size antenna for operation at 5.7 GHz, assembled with a low-power, low-v...
© 2018 IEEE. This paper presents a 410 GHz OOK transmitter in 28 nm bulk CMOS. The transmitter is pa...
This paper presents the first-ever millimeter wave on-chip antenna (AoC) in 28 nm CMOS technology. T...
This talk describes AMC design steps in an on-chip environment and shows how it can be used to boost...
This paper investigates design considerations and challenges of integrating on-chip antennas in nano...
Gluing an Antenna-on-Chip (AoC) directly on a ground plane or heat sink in the lead-frame is a stand...
The configurations of single patch antenna integrated with three different designs of patch artifici...
10.1109/RFIT.2009.53836692009 IEEE International Symposium on Radio-Frequency Integration Technology...
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...
The paper presents several feasible millimeter wave on-chip antenna designs suitable to be fabricate...
The configurations of single patch antenna integrated with three different designs of patch artifici...
Abstract: This paper describes a chip-size antenna for operation at 5.7 GHz, assembled with a low-p...
Aggressive scaling of (Bi)CMOS technology has enabled the designs of highly integrated transmitting ...
This letter presents a monolithically integrated on-chip antenna fabricated in 0.18 mu m standard CM...
This paper describes a chip-size antenna for operation at 5.7 GHz, assembled with a low-power, low-v...
© 2018 IEEE. This paper presents a 410 GHz OOK transmitter in 28 nm bulk CMOS. The transmitter is pa...
This paper presents the first-ever millimeter wave on-chip antenna (AoC) in 28 nm CMOS technology. T...
This talk describes AMC design steps in an on-chip environment and shows how it can be used to boost...
This paper investigates design considerations and challenges of integrating on-chip antennas in nano...
Gluing an Antenna-on-Chip (AoC) directly on a ground plane or heat sink in the lead-frame is a stand...
The configurations of single patch antenna integrated with three different designs of patch artifici...
10.1109/RFIT.2009.53836692009 IEEE International Symposium on Radio-Frequency Integration Technology...
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...
The paper presents several feasible millimeter wave on-chip antenna designs suitable to be fabricate...
The configurations of single patch antenna integrated with three different designs of patch artifici...
Abstract: This paper describes a chip-size antenna for operation at 5.7 GHz, assembled with a low-p...
Aggressive scaling of (Bi)CMOS technology has enabled the designs of highly integrated transmitting ...
This letter presents a monolithically integrated on-chip antenna fabricated in 0.18 mu m standard CM...
This paper describes a chip-size antenna for operation at 5.7 GHz, assembled with a low-power, low-v...
© 2018 IEEE. This paper presents a 410 GHz OOK transmitter in 28 nm bulk CMOS. The transmitter is pa...