In this paper, CMOS RF down-conversion mixer circuit hot-carrier (HC) and soft breakdown (SBD) reliability estimation and redesign is presented. First of all, MOS transistor reliability under analog operation was evaluated by experiment. The mixer circuit operation conditions for the occurrence of HC and SBD are analyzed, and circuit performance model are presented to relate the device degradation to circuit performance degradation. Finally, we propose mixer circuit redesign strategies, which reduce the HC and SBD problem. Simulation shows improved noise performance with the similar gain, IIP3 and power consumption
International audienceReliability simulation is an area of increasing interest as it allows the desi...
[[abstract]]A comprehensive device degradation model is built for circuit-level reliability evaluati...
This paper systematically investigates the hot carrier (HC) and soft breakdown (SBD) effects on CMOS...
A methodology for designing reliable RF circuits is proposed. A model to predict hot carrier and sof...
Hot carrier and soft breakdown effects are evaluated experimentally. A methodology to systematically...
Hot carrier and soft breakdown effects are evaluated experimentally. A methodology to systematically...
A methodology to systematically study hot carrier and soft breakdown effects on RF circuits is propo...
This paper systematically investigates the hot carrier (HC) and soft-breakdown (SBD) induced perform...
A systematic study of RF circuit performance degradation subject to oxide soft breakdown (SBD) and h...
A systematic study of RF circuit performance degradation subject to oxide soft breakdown (SBD) and h...
As CMOS device sizes shrink, the channel electric field becomes higher and the hot carrier (HC) effe...
CMOS hot-carrier reliability at both transistor and circuit levels has been examined. Accurate relia...
As VLSI technologies scale to deep submicron region, the DC device-based hot-carrier criterion is no...
This paper systematically investigates the hot carrier (HC) and soft breakdown (SBD) effects on diff...
A downconversion mixer using the double-balanced Gilbert cell structure is fabricated using 65-nm CM...
International audienceReliability simulation is an area of increasing interest as it allows the desi...
[[abstract]]A comprehensive device degradation model is built for circuit-level reliability evaluati...
This paper systematically investigates the hot carrier (HC) and soft breakdown (SBD) effects on CMOS...
A methodology for designing reliable RF circuits is proposed. A model to predict hot carrier and sof...
Hot carrier and soft breakdown effects are evaluated experimentally. A methodology to systematically...
Hot carrier and soft breakdown effects are evaluated experimentally. A methodology to systematically...
A methodology to systematically study hot carrier and soft breakdown effects on RF circuits is propo...
This paper systematically investigates the hot carrier (HC) and soft-breakdown (SBD) induced perform...
A systematic study of RF circuit performance degradation subject to oxide soft breakdown (SBD) and h...
A systematic study of RF circuit performance degradation subject to oxide soft breakdown (SBD) and h...
As CMOS device sizes shrink, the channel electric field becomes higher and the hot carrier (HC) effe...
CMOS hot-carrier reliability at both transistor and circuit levels has been examined. Accurate relia...
As VLSI technologies scale to deep submicron region, the DC device-based hot-carrier criterion is no...
This paper systematically investigates the hot carrier (HC) and soft breakdown (SBD) effects on diff...
A downconversion mixer using the double-balanced Gilbert cell structure is fabricated using 65-nm CM...
International audienceReliability simulation is an area of increasing interest as it allows the desi...
[[abstract]]A comprehensive device degradation model is built for circuit-level reliability evaluati...
This paper systematically investigates the hot carrier (HC) and soft breakdown (SBD) effects on CMOS...