Title :
A CMOS Voltage Controlled Continuous Phase Shifter With Active Loss Compensation
Author_Institution :
Samsung Design Center, Atlanta, GA, USA
Abstract :
A voltage controlled RF linear phase shifter (VPS) on CMOS process is proposed and developed to address insertion loss variation over a control range, linearity of phase control, and the size of implementation. A new compensation method for a transmission line phase shifter is introduced. By compensating loss associated with lumped elements in a transmission line, the measured CMOS VPS achieves minimum 2.8 dB insertion loss and ±0.6 dB insertion loss variation over 120° phase shift at 1.95 GHz, consuming 4 mA from 1.8 V supply. The size of the phase shifter is 850 μm × 440 μm without pads. The measured input P1dB of the design is higher than 4 dBm. To the best of author´s knowledge, the demonstrated phase shifter achieves one of the best performances published in a CMOS process without using active inductors.
Keywords :
CMOS integrated circuits; UHF integrated circuits; UHF phase shifters; compensation; inductors; phase control; transmission lines; CMOS process; VPS; active inductors; active loss compensation; continuous phase shifter; control range; current 4 mA; frequency 1.95 GHz; insertion loss variation; loss -0.6 dB; loss 0.6 dB; loss 2.8 dB; lumped elements; phase control; transmission line phase shifter; voltage 1.8 V; voltage controlled RF linear phase shifter; CMOS integrated circuits; Inductors; Insertion loss; Loss measurement; Phase shifters; Propagation losses; Voltage control; Active inductor; CMOS; insertion loss; linearity; loss compensation; variation; voltage controlled phase shifter (VPS);
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2012.2207095
