The quality factor (Q) of two inductors for 5-60 GHz applications fabricated in an industrial back-end of line (22FDX® from GlobalFoundries) with thick Cu metal layers on top of several Si substrates of different bulk resistivities is analyzed in this paper. The low frequency RF inductor shows an improvement of up to 44% in Q with a high-resistivity substrate. However, no significant improvement is observed for the high-frequency MMW fabricated inductor. This is identified to be due to lower electric field concentration in the substrate due to the small geometry of this MMW inductor that is realized in the top metal Cu layer. Nevertheless, simulations show that a 30% improvement can be achieved with a low loss substrate when designing a MMW inductor as a stacked coil of all BEOL thick metal layers.
Communication à un colloque (Conference Paper) – Présentation orale avec comité de sélection
Access type
Accès libre
Publication date
2022
Language
Anglais
Conference
"The 8th Joint International EuroSOI Workshop and International Conference on Ultimate Integration on Silicon - EuroSOI-ULIS'2022", Udine, Italy (du 18/05/2022 au 20/05/2022)
Peer reviewed
yes
Host document
"The 8th Joint International EuroSOI Workshop and International Conference on Ultimate Integration on Silicon - EuroSOI-ULIS'2022"
Nyssens, Lucas ; Rack, Martin ; Schwan, C. ; Zhao, Z. ; Lehmann, S. ; et. al. Impact of substrate resistivity on spiral inductors at mm-wave frequencies.The 8th Joint International EuroSOI Workshop and International Conference on Ultimate Integration on Silicon - EuroSOI-ULIS'2022 (Udine, Italy, du 18/05/2022 au 20/05/2022). In: The 8th Joint International EuroSOI Workshop and International Conference on Ultimate Integration on Silicon - EuroSOI-ULIS'2022, 2022