Title :
A 6.5mW, wide band dual-path LC VCO design with mode switching technique in 130nm CMOS
Author :
Jun Li ; Ni Xu ; Yuanfeng Sun ; Rhee, Woogeun ; Zhihua Wang
Author_Institution :
Univ. of California, San Diego, La Jolla, CA, USA
Abstract :
This paper demonstrates a dual path LC voltage controlled oscillator (VCO) that achieves ~65% tuning range with optimized inductor switching design. Combination of discrete and continuous tuning method reduces the gain ratio between coarse tuning path and fine tuning path which alleviates the noise and coupling issues due to high coarse tuning gain. Optimized inductor switching topology enables wideband continuous tuning from 2.74-5.37GHz. The VCO consumes 6.5 mW power from a 1.2 V supply and exhibits -123.8dBc/Hz at 3MHz offset from a 4.605 GHz carrier showing FOMT of -198.3dBc/Hz. The circuit is fabricated in 130nm CMOS process and occupies an area of 0.6mm2.
Keywords :
CMOS integrated circuits; LC circuits; MMIC oscillators; circuit tuning; field effect MMIC; inductors; voltage-controlled oscillators; CMOS; coarse tuning path; continuous tuning method; discrete tuning method; fine tuning path; frequency 2.74 GHz to 5.37 GHz; gain ratio; inductor switching design; mode switching technique; optimized inductor switching topology; power 6.5 mW; size 130 nm; tuning range; voltage 1.2 V; voltage controlled oscillator; wide band dual-path LC VCO design; Capacitors; Inductors; Phase noise; Switches; Tuning; Voltage-controlled oscillators; Wireless communication; Cognitive Radio (CR); Dual-Path VCO; LC-VCO; Software Defined Radio (SDR); phase lock loops (PLL); voltage controlled oscillators (VCOs);
Conference_Titel :
Silicon Monolithic Integrated Circuits in RF Systems (SiRF), 2015 IEEE 15th Topical Meeting on
Conference_Location :
San Diego, CA
DOI :
10.1109/SIRF.2015.7119857
