Design of low-power wideband frequency quadruplers based on transformer-coupled resonators for E-Band backhaul applications
Articolo
Data di Pubblicazione:
2017
Abstract:
This paper presents a mm-wave two-stage push-push BiCMOS frequency quadrupler for E-band wireless
backhaul applications. To enhance gain-bandwidth product and overcome the limitations of classic push-push
pairs, coupled resonators realized through low-k transformers are employed. A novel transformer layout is
proposed for single-ended to differential conversion to achieve superior suppression of differential mismatches
and enhanced gain. The measured prototype, fabricated in 55 nm BiCMOS technology, achieves a remarkable
27% fractional bandwidth around the center frequency of 74 GHz with a power consumption of 7 mW only
backhaul applications. To enhance gain-bandwidth product and overcome the limitations of classic push-push
pairs, coupled resonators realized through low-k transformers are employed. A novel transformer layout is
proposed for single-ended to differential conversion to achieve superior suppression of differential mismatches
and enhanced gain. The measured prototype, fabricated in 55 nm BiCMOS technology, achieves a remarkable
27% fractional bandwidth around the center frequency of 74 GHz with a power consumption of 7 mW only
Tipologia CRIS:
1.1 Articolo in rivista
Keywords:
Mm-Wave
E-Band
Backhaul
Small cells
Frequency synthesizer
Frequency quadrupler
Frequency multiplier
Push-push
Transformer coupled resonators
Isolated balun
BiCMOS
Elenco autori:
Iotti, Lorenzo; Bassi, Matteo; Mazzanti, Andrea; Svelto, Francesco
Link alla scheda completa:
Pubblicato in: