Title :
A 2–16 GHz 65 nm CMOS Stepped-Frequency Radar Transmitter With Harmonic Rejection for High-Resolution Medical Imaging Applications
Author :
Caruso, Michele ; Bassi, Matteo ; Bevilacqua, Andrea ; Neviani, Andrea
Author_Institution :
Dept. of Inf. Eng., Univ. of Padova, Padua, Italy
Abstract :
A 65 nm CMOS transmitter capable of providing signals over the wide 2 to 16 GHz frequency range for stepped-frequency continuous wave short-range medical radar applications is presented. It generates both the local oscillator signals required for quadrature downconversion in the receiver path, and the transmitter output signal, thus guaranteeing phase coherence between transmitter and receiver, essential requirement for correct radar operation. Made of a 6.5 to 18.4GHz PLL, an inductorless injection-locked programmable divider by 1, 2, or 4, and a harmonic rejection buffer, it features an average output power of -14 dBm, a phase noise at 10 MHz offset 129 dBc/Hz, a RMS jitter 0.68 ps, a reference spur level 48 dBc, a harmonic rejection 40 dBc, and a settling time of 2 μs.
Keywords :
CMOS integrated circuits; image resolution; jitter; medical image processing; oscillators; phase locked loops; radar imaging; radar receivers; radar transmitters; CMOS stepped-frequency radar transmitter; PLL; RMS jitter; frequency 2 GHz to 16 GHz; frequency 6.5 GHz to 18.4 GHz; harmonic rejection; harmonic rejection buffer; high-resolution medical imaging; inductorless injection-locked programmable divider; phase coherence; phase noise; quadrature downconversion; radar operation; receiver path; size 65 nm; stepped-frequency continuous wave short-range medical radar; Frequency conversion; Harmonic analysis; Phase locked loops; Radar imaging; Receivers; Transmitters; CMOS; UWB transmitter; frequency divider; frequency division; harmonic rejection; radar imaging; stepped frequency continuous wave (SFCW);
Journal_Title :
Circuits and Systems I: Regular Papers, IEEE Transactions on
DOI :
10.1109/TCSI.2014.2362332
