International audienceThis paper presents a study on an integrated technology: Fully-Depleted-Silicon-On-Insulator (FDSOI) at a 28nm node. FDSOI results are compared to another technology: Complementary-Metal-Oxide-Semiconductor (CMOS) 350nm. The aim of this work was to demonstrate the advantages of using FDSOI technology in RF energy scavenging applications. Characteristics of transistors are pointed out and results showed an improved 22%-output voltage gain for a series rectifier and a 13%-output voltage gain for a Dickson charge pump in FDSOI technology compared to CMOS, for an input voltage and power of 0.5 V and 0 dBm respectively. Those results allowed to prove that FDSOI 28nm is a better technology choice for energy scavenging and lo...
Pour les nœuds technologiques avancés, la consommation statique des circuits intégrés est devenue un...
Abstract. This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology off...
This work provides a detailed study of 28 nm fully depleted silicon-on-insulator (FD SOI) ultra-thin...
International audienceThis paper presents a study on an integrated technology: Fully-Depleted-Silico...
International audienceThe need for the reduction of energy consumption and size of microelectronic...
International audienceIn this paper, we propose to study the impact of 28nm FDSOI technology on ener...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
International audienceThe context of this article is a low power application: RF energy harvesting. ...
Ultralow-power electronics will expand the technological capability of handheld and wireless devices...
The advances in the semiconductor and wireless industry have enabled the expansion of new paradigms,...
In this paper, the minimum operating voltage of master-slave flip-flops made in advanced fully-deple...
This work presents an in-depth wide-frequency band assessment of 28 nm FDSOI MOSFETs for analogue an...
IoT is expected to connect billions of devices all over world in the next years, and in a near futur...
this this paper presents an performance evaluate of partially depleted soi (pdsoi) mosfet and fully ...
In this work, a new library is developed for 28-nm FDSOI CMOS technology. The new library is optimiz...
Pour les nœuds technologiques avancés, la consommation statique des circuits intégrés est devenue un...
Abstract. This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology off...
This work provides a detailed study of 28 nm fully depleted silicon-on-insulator (FD SOI) ultra-thin...
International audienceThis paper presents a study on an integrated technology: Fully-Depleted-Silico...
International audienceThe need for the reduction of energy consumption and size of microelectronic...
International audienceIn this paper, we propose to study the impact of 28nm FDSOI technology on ener...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
International audienceThe context of this article is a low power application: RF energy harvesting. ...
Ultralow-power electronics will expand the technological capability of handheld and wireless devices...
The advances in the semiconductor and wireless industry have enabled the expansion of new paradigms,...
In this paper, the minimum operating voltage of master-slave flip-flops made in advanced fully-deple...
This work presents an in-depth wide-frequency band assessment of 28 nm FDSOI MOSFETs for analogue an...
IoT is expected to connect billions of devices all over world in the next years, and in a near futur...
this this paper presents an performance evaluate of partially depleted soi (pdsoi) mosfet and fully ...
In this work, a new library is developed for 28-nm FDSOI CMOS technology. The new library is optimiz...
Pour les nœuds technologiques avancés, la consommation statique des circuits intégrés est devenue un...
Abstract. This paper demonstrates that fully-depleted (FD) silicon-on-insulator (SOI) technology off...
This work provides a detailed study of 28 nm fully depleted silicon-on-insulator (FD SOI) ultra-thin...