A Sub-7-GHz Linear Receiver for 5G Local Area Base Station Applications

Abstract

This article presents a sub-7-GHz receiver (RX) for the fifth-generation (5G) local area base station applications. A Rauch transimpedance amplifier (TIA) with a third-order high-pass impedance in its feedback is adopted to enhance RX selectivity and provide higher loop gain (LG) at the bandwidth edge, improving in-band linearity for high-bandwidth applications. An N-path notch filter, sharing switches with down-converting passive mixers, is incorporated in the low-noise transconductance amplifier (LNTA) to enhance out-of-band linearity without limiting the RX’s operating frequency. Additionally, a frequency-dependent negative capacitance is realized at the LNTA input by exploiting the bandpass characteristic of the TIA input impedance, which helps achieve a flat in-band response, extend the RX bandwidth, and improve front-end filtering roll-off. Fabricated in 40-nm CMOS technology, the RX occupies a 1.3-mm² area, operates from 0.4 to 7.3 GHz, and consumes 105–195 mW from a 1.3-V supply. It achieves a third-order output third-order intercept point (OIP3) of 27–38 dBm over a 300-MHz channel bandwidth and a noise figure (NF) of 3.2–5.8 dB across its operating range. With its high linearity, low NF, and enhanced selectivity, the RX satisfies 3GPP standard requirements for reference sensitivity, in-band blocking, close-in blocking, and far-out blocking.