Abstract:
This article presents a compact 24–30-GHz phased array transceiver (TRX) front end (FE) with high transmitter (TX) power efficiency and low receiver (RX) noise figure (NF...Show MoreMetadata
Abstract:
This article presents a compact 24–30-GHz phased array transceiver (TRX) front end (FE) with high transmitter (TX) power efficiency and low receiver (RX) noise figure (NF) in a 130-nm bipolar CMOS (BiCMOS) technology supporting different 5th generation mobile network (5G) frequency range 2 (FR2) bands (n257, n258, and n261). We introduce an embedded antenna TX/RX (T/R) switch (SW) topology to co-optimize the performances of the power amplifier (PA) and the low-noise amplifier (LNA) while minimizing insertion loss and die area. The proposed TRX integrated circuits (ICs) also integrates a transmission line-based passive phase shifter and 1-bit phase inverter for phase control and a phase-invariant variable gain amplifier (VGA) for gain control, enabling orthogonal phase and gain control in the FE. On-wafer measurements of the TRX FE IC at 25 °C demonstrate TX mode peak power efficiency of 22%–24% and RX-mode NF of 2.8–3.1 dB, including the impact of the antenna T/R switch. The measured OP1dB and P_{\mathrm{ SAT}} in the TX mode are 15.6–16.2 and 17.8–18.8 dBm, respectively. RF phase shifting measurements demonstrate < 5.6° phase resolution with gain variation lower than ±0.5 dB without the need for calibration. We implement phase-invariant gain tunability for orthogonal tapering and beam steering control; the measured phase variation is { < }\pm 1.5^{\circ} for 8-dB gain tuning over 24–30 GHz. The IC was measured at a temperature up to 105 °C and maintains TX peak power efficiency > 19% with P_{\mathrm{ SAT}} degradation < 1 dB and RX NF < 5.1 dB. The IC has an active area of 2.1 \times 0.6 mm.
Published in: IEEE Journal of Solid-State Circuits ( Volume: 59, Issue: 9, September 2024)