Your search keyword '"Roche, Nicholas J.-H."' showing total 3 results

1. The Use of Inverse-Mode SiGe HBTs as Active Gain Stages in Low-Noise Amplifiers for the Mitigation of Single-Event Transients.

Author

Song, Ickhyun, Cho, Moon-Kyu, Lourenco, Nelson E., Fleetwood, Zachary E., Jung, Seungwoo, Roche, Nicholas J.-H., Khachatrian, Ani, Buchner, Steven P., McMorrow, Dale, Paki, Pauline, and Cressler, John D.

Subjects

SILICON germanium integrated circuits, HETEROJUNCTION bipolar transistors, SINGLE event effects, LOW noise amplifiers, LIGHT absorption

Abstract

A cascode configuration with inverse-mode (IM) common-emitter silicon-germanium (SiGe) heterojunction bipolar transistors (HBTs) is proposed for the mitigation of single-event transients (SETs) in low-noise amplifiers (LNAs). Conventionally, despite their SET-mitigation capability, IM SiGe HBTs have been considered to be unsuitable for active gain stages due to severe degradation in RF performance. However, with the benefits of aggressive technology scaling, the high frequency performance of IM SiGe HBTs has been significantly improved, thereby enabling them to be utilized in active gain stages with acceptable RF performance. The cascode with IM common-emitter and common-base SiGe HBTs is used for a 2.4 GHz prototype LNA and it achieves adequate RF gain (10 dB) and noise figure (1.9 dB). With regard to SET mitigation, a through-wafer two-photon absorption pulsed-laser experiment is conducted to test the efficacy of this radiation-hardening approach in an advanced 90 nm SiGe BiCMOS platform. The proposed IM-SiGe-HBT-based LNA exhibits 85% reduction in transient peaks compared to the conventional forward-mode cascode LNA. [ABSTRACT FROM PUBLISHER]

Published

2017

2. An Investigation of the Use of Inverse-Mode SiGe HBTs as Switching Pairs for SET-Mitigated RF Mixers.

Author

Song, Ickhyun, Raghunathan, Uppili S., Lourenco, Nelson E., Fleetwood, Zachary E., Oakley, Michael A., Jung, Seungwoo, Cho, Moon-Kyu, Roche, Nicholas J.-H., Khachatrian, Ani, Warner, Jeffrey H., Buchner, Stephen P., McMorrow, Dale, Paki, Pauline, and Cressler, John D.

Subjects

SILICON germanium integrated circuits, SWITCHING systems (Telecommunication), DATA transmission systems, LIGHT absorption, FREQUENCIES of oscillating systems

Abstract

The capability of inverse-mode (IM) silicon- germanium (SiGe) heterojunction bipolar transistors (HBTs) for the mitigation of single-event transients (SETs) under large-signal operation was investigated in an RF down-conversion single- balanced mixer using a through-wafer, two-photon absorption pulsed-laser beam experiment and TCAD heavy-ion simulations. The IM SiGe HBTs replace conventional forward-mode (FM) SiGe HBTs in the differential pair, which provides full current steering for frequency mixing operation. Under steady-state conditions, the IM SiGe HBT differential pair exhibits smaller transient peaks with shorter durations compared to the FM SiGe HBTs. In addition, under the injection of a local oscillator (LO) signal with large swing, the IM SiGe HBTs show faster recovery (50% reduction in the best case) from the impact of SETs. In the frequency domain, it is observed that IM SiGe HBTs produce less distortion at the output for an intermediate frequency below 1 GHz. Based on the performance comparison between FM and IM SiGe HBT down-conversion mixers, system design guidelines to compensate the noise figure degradation associated with using IM SiGe HBTs are discussed. [ABSTRACT FROM AUTHOR]

Published

2016

3. Design of Radiation-Hardened RF Low-Noise Amplifiers Using Inverse-Mode SiGe HBTs.

Author

Song, Ickhyun, Jung, Seungwoo, Lourenco, Nelson E., Raghunathan, Uppili S., Fleetwood, Zachary E., Zeinolabedinzadeh, Saeed, Gebremariam, Tikurete B., Inanlou, Farzad, Roche, Nicholas J.-H., Khachatrian, Ani, McMorrow, Dale, Buchner, Stephen P., Melinger, Joseph S., Warner, Jeffrey H., Paki-Amouzou, Pauline, and Cressler, John D.

Subjects

ELECTRONIC amplifiers, LIGHT absorption, WAVE analysis, INTEGRATED circuits, RADIATION, OSCILLATIONS

Abstract

A SiGe RF low-noise amplifier (LNA) with built-in tolerance to single-event transients is proposed. The LNA utilizes an inverse-mode SiGe HBT for the common-base transistor in a cascode core. This new cascode configuration exhibits reduced transient peaks and shorter transient durations compared to the conventional cascode one. The improved SET response was verified with through-wafer two-photon absorption pulsed-laser experiments and supported via mixed-mode TCAD simulations. In addition, analysis of the RF performance and the reliability issues associated with the inverse-mode operation further suggests this new cascode structure can be a strong contender for space-based applications. The LNA with the inverse-mode-based cascode core was fabricated in a 130 nm SiGe BiCMOS platform and has similar RF performance to the conventional schematic-based LNA, further validating the proposed approach. [ABSTRACT FROM PUBLISHER]

Published

2014