A wideband and low-power mm-wave variable-gain phase shifter based on a source-switching scheme

Abstract

This article presents a low-power and wideband variable-gain phase shifter (VGPS) designed and simulated in a CMOS 65 nm technology. It introduces a source-switching scheme for designing a variable gain amplifier (SSVGA) characterized by invariant linearity, impedance, and phase characteristics, showcasing improved gain and bandwidth compared to conventional VGAs. The current-reuse and staggered-tuning techniques are used to reduce power consumption and extend the bandwidth, respectively. The proposed VGPS enables gain tuning without the need for an additional gain tuning block, resulting in reduced chip area and sidelobe levels in phased array radar systems. The proposed VGPS, with a 5-bit resolution, achieves a 3-dB bandwidth of 18 GHz (53.5–71.5 GHz) and exhibits RMS gain error range from 0.23 to 0.5 dB and RMS phase error range from 0.54° to 2.65° with phase calibration based on simulation results. It achieves a peak average gain of 1.2 dB at 58.5 GHz while consuming a DC power consumption of only 5 mW with a 1.2 V power supply voltage. Moreover, it demonstrates a wide gain tuning of 20.6 dB, allowing for flexible gain adjustments.