This letter presents a highly efficient low-intermediate frequency receiver front-end for Internet-of-Things applications. The lownoise trans-impedance amplifier (LNTA) combines a transformer-based network for scaling up the source impedance together with passive gmboosting and current-reuse techniques to achieve better noise and 12× current saving compared with a common-gate (CG) stage. A complex channel-selection filter with center frequency and passband of 2 and 1.4 MHz, respectively, is implemented after the passive mixer with a gmboosted CG stage. Built in 28-nm CMOS, the proposed receiver occupies an active area of 0.1 mm 2 , it is supplied with 0.9 V and consumes only 350 μW, while showing a minimum NF of 6.2 dB at the channel of interest. The RF performance of the proposed receiver is very competitive with the state-of-the-art ultralow-power receivers, while it consumes the lowest power.
A Sub-1-V, 350-uW, 6.5-dB Integrated NF Low-IF Receiver Front-End for IoT in 28-nm CMOS
Kargaran, Ehsan;Manstretta, Danilo;Castello, Rinaldo
2019-01-01
Abstract
This letter presents a highly efficient low-intermediate frequency receiver front-end for Internet-of-Things applications. The lownoise trans-impedance amplifier (LNTA) combines a transformer-based network for scaling up the source impedance together with passive gmboosting and current-reuse techniques to achieve better noise and 12× current saving compared with a common-gate (CG) stage. A complex channel-selection filter with center frequency and passband of 2 and 1.4 MHz, respectively, is implemented after the passive mixer with a gmboosted CG stage. Built in 28-nm CMOS, the proposed receiver occupies an active area of 0.1 mm 2 , it is supplied with 0.9 V and consumes only 350 μW, while showing a minimum NF of 6.2 dB at the channel of interest. The RF performance of the proposed receiver is very competitive with the state-of-the-art ultralow-power receivers, while it consumes the lowest power.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.