Title :
Design of Active N-Path Filters
Author :
Darvishi, Mostafa ; van der Zee, R. ; Nauta, Bram
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Twente, Enschede, Netherlands
Abstract :
A design methodology for synthesis of active N-path bandpass filters is introduced. Based on this methodology, a 0.1-to-1.2 GHz tunable 6th-order N-path channel-select filter in 65 nm LP CMOS is introduced. It is based on coupling N-path filters with gyrators, achieving a “flat” passband shape and high out-of-band linearity. A Miller compensation method is utilized to considerably improve the passband shape of the filter. The filter has 2.8 dB NF, +25 dB gain, +26 dBm wideband IIP3 ( MHz), an out-of-band 1 dB blocker compression point B1dB,CP of +7 dBm (Δf = +50 MHz) and 59 dB stopband rejection. The analog and digital part of the filter draw 11.7 mA and 3-36 mA from 1.2 V, respectively. The LO leakage to the input port of the filter is ≤-64 dBm at a clock frequency of 1 GHz. The proposed filter only consists of inverters, switches and capacitors and therefore it is friendly with process scaling.
Keywords :
CMOS integrated circuits; band-pass filters; gyrators; LP CMOS; Miller compensation method; N-path channel-select filter; active N-path bandpass filters; design methodology; gyrators; Band-pass filters; Baseband; Capacitors; Parasitic capacitance; Resistance; Switches; Transfer functions; BPF; CMOS; IIP$_3$; N-path; bandpass; channel select; compression point; filter; gyrator; high out-of-band linearity; passive mixer; tunable;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2013.2285852
