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Simple Modeling and Analysis of Total Ionizing Dose Effects on Radio-Frequency Low-Noise Amplifiersopen access

Authors
Kim, TaeyeongRyu, GyungtaeLee, JonghoCho, Moon-KyuFleetwood, Daniel M.Cressler, John. D.Song, Ickhyun
Issue Date
Apr-2024
Publisher
MDPI AG
Keywords
low-noise amplifier (LNA); radiation effect; radio frequency (RF); silicon-germanium heterojunction bipolar transistor (SiGe HBT); small-signal modeling; total ionizing dose (TID)
Citation
Electronics (Basel), v.13, no.8, pp 1 - 15
Pages
15
Indexed
SCIE
SCOPUS
Journal Title
Electronics (Basel)
Volume
13
Number
8
Start Page
1
End Page
15
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197205
DOI
10.3390/electronics13081445
ISSN
2079-9292
2079-9292
Abstract
In this study, the degradation characteristics of radio frequency (RF)-low-noise amplifiers (LNA) due to a total ionizing dose (TID) is investigated. As a device-under-test (DUT), sample LNAs were prepared using silicon-germanium (SiGe) heterojunction bipolar transistors (HBTs) as core elements. The LNA was based on a cascode stage with emitter degeneration for narrowband applications. By using a simplified small-signal model of a SiGe HBT, design equations such as gain, impedance matching, and noise figure (NF) were derived for analyzing TID-induced degradations in the circuit-level performance. To study radiation effects in circuits, the SiGe-RF-LNAs fabricated in a commercial 350 nm SiGe technology were exposed to 10-keV X-rays to a total ionizing dose of up to 3 Mrad(SiO2). The TID-induced performance changes of the LNA were modeled by applying degradation to device parameters. In the modeling process, new parameter values after irradiation were estimated based on information in the literature, without direct measurements of SiGe HBTs used in the LNA chip. As a result, the relative contributions of parameters on the circuit metrics were compared, identifying dominant parameters for degradation modeling. For the TID effects on input matching (S11) and NF, the base resistance (RB) and the base-to-emitter capacitance (C pi) of the input transistor were mostly responsible, whereas the transconductances (gm) played a key role in the output matching (S22) and gain (S21). To validate the proposed approach, it has been applied to a different LNA in the literature and the modeling results predicted the TID-induced degradations within reasonable ranges.
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