Add to ORKGInternational audienceTwo compact frequency generation topologies based on distributed oscillator architecture have been for the very first time integrated at 134GHz and 202GHz in a 10ML 28nm FDSOI CMOS technology. The efficient fundamental frequency generation enables output powers of 0.4dBm and 0.3dBm and 5.5% and 5.4% DC-to-RF efficiency respectively. The body tie of the 28nm FDSOI technology allows phase noise fine tuning through body-bias control. The measured optimum phase noises are -99.6dBc/Hz and -100.4dBc/Hz at 1MHz offset, for the two different oscillators. Robust design has been as well demonstrated, opening the way to mmW and sub-mmW SoC integration in deep submicron FDSOI CMOS
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to bey...
This paper presents an octacore DCO, implemented in a 28 nm CMOS technology, able to achieve an outs...
This work presents the design of a 24-GHz digitally controlled oscillator (DCO) in an advanced 28-nm...
Back-bias control is a new degree of freedom brought by fully-depleted silicon-on-insulator (FDSOI) ...
Twentieth century has been the golden age of semiconductor industry by achieving a high level of gro...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to be...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to be...
Tunable VCOs operating around 24GHz in 0 18 mu m CMOS are reported Simple CMOS inverters are used as...
The research activity carried out during the PhD is focused on the study, analysis and design of mil...
The inevitable migration to deeply-scaled technology nodes forces special considerations on high-pow...
The inevitable migration to deeply-scaled technology nodes forces special considerations on high-pow...
The insatiable demand for global connectivity due to the exponential increase in the number of wirel...
ESSCIRC 2017: 43rd IEEE European Solid State Circuits Conference, Leuven, Belgium, 11-14 September 2...
Abstract This paper presents the design of two high efficiency fundamental voltage controlled oscill...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to bey...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to bey...
This paper presents an octacore DCO, implemented in a 28 nm CMOS technology, able to achieve an outs...
This work presents the design of a 24-GHz digitally controlled oscillator (DCO) in an advanced 28-nm...
Back-bias control is a new degree of freedom brought by fully-depleted silicon-on-insulator (FDSOI) ...
Twentieth century has been the golden age of semiconductor industry by achieving a high level of gro...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to be...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to be...
Tunable VCOs operating around 24GHz in 0 18 mu m CMOS are reported Simple CMOS inverters are used as...
The research activity carried out during the PhD is focused on the study, analysis and design of mil...
The inevitable migration to deeply-scaled technology nodes forces special considerations on high-pow...
The inevitable migration to deeply-scaled technology nodes forces special considerations on high-pow...
The insatiable demand for global connectivity due to the exponential increase in the number of wirel...
ESSCIRC 2017: 43rd IEEE European Solid State Circuits Conference, Leuven, Belgium, 11-14 September 2...
Abstract This paper presents the design of two high efficiency fundamental voltage controlled oscill...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to bey...
In this paper, we exploit an idea of coupling multiple oscillators to reduce phase noise (PN) to bey...
This paper presents an octacore DCO, implemented in a 28 nm CMOS technology, able to achieve an outs...
This work presents the design of a 24-GHz digitally controlled oscillator (DCO) in an advanced 28-nm...