Add to ORKGMillimeter-wave backhauling links are of primary importance in the architecture of 5G telecommunication systems. Their implementation demands highly integrated front-end chips capable of fully exploiting the most advanced semiconductor technologies' capabilities. This work reports the design and experimental validation of several fundamental building blocks of D- and E-band backhauling front-ends implemented using 55-nm SiGe BiCMOS semiconductor technology. Results include an E-band I-Q receiver, a frequency synthesizer, two D-band amplifiers and, a D-band power amplifier
The paper presents an architecture and specifications for an innovative wireless backhaul solution e...
The never ending demand for wider bandwidth, coupled with the evolution of technology, drives the pr...
In this dissertation, millimeter-wave transmitter systems and a bidirectional transceiver front-end ...
Millimeter-wave backhauling links are of primary importance in the architecture of 5G telecommunicat...
The implementation of backhauling links poses several challenges to the designers which are requeste...
This paper presents the design of a wideband and high-linearity E-band transmitter integrated in a 5...
While 5G wireless network is being currently deployed around the world, preliminary research activit...
While 5G wireless network is being currently deployed around the world, preliminary research activit...
The continued public demand for faster wireless data transfer, and the related expanding volume of m...
This thesis presents the development of a new kind of power amplifiers and the design of a full E-ba...
This paper presents compact D-band amplifiers in 55 nm SiGe BiCMOS technology. Device models and des...
The pursuit of dense monolithic integration and higher operating speed continues to push the integra...
Point-to-point wireless links in the E-Band (71-76GHz and 81-86GHz bands) can provide high-data-rate...
This thesis focuses on design and realization of millimeter-wave radio frontend circuits for fifth g...
Driven by the exponential growth in mobile broadband subscriptions and mobile data traffic, transpor...
The paper presents an architecture and specifications for an innovative wireless backhaul solution e...
The never ending demand for wider bandwidth, coupled with the evolution of technology, drives the pr...
In this dissertation, millimeter-wave transmitter systems and a bidirectional transceiver front-end ...
Millimeter-wave backhauling links are of primary importance in the architecture of 5G telecommunicat...
The implementation of backhauling links poses several challenges to the designers which are requeste...
This paper presents the design of a wideband and high-linearity E-band transmitter integrated in a 5...
While 5G wireless network is being currently deployed around the world, preliminary research activit...
While 5G wireless network is being currently deployed around the world, preliminary research activit...
The continued public demand for faster wireless data transfer, and the related expanding volume of m...
This thesis presents the development of a new kind of power amplifiers and the design of a full E-ba...
This paper presents compact D-band amplifiers in 55 nm SiGe BiCMOS technology. Device models and des...
The pursuit of dense monolithic integration and higher operating speed continues to push the integra...
Point-to-point wireless links in the E-Band (71-76GHz and 81-86GHz bands) can provide high-data-rate...
This thesis focuses on design and realization of millimeter-wave radio frontend circuits for fifth g...
Driven by the exponential growth in mobile broadband subscriptions and mobile data traffic, transpor...
The paper presents an architecture and specifications for an innovative wireless backhaul solution e...
The never ending demand for wider bandwidth, coupled with the evolution of technology, drives the pr...
In this dissertation, millimeter-wave transmitter systems and a bidirectional transceiver front-end ...