Title :
A Compact 77% Fractional Bandwidth CMOS Band-Pass Distributed Amplifier With Mirror-Symmetric Norton Transforms
Author :
Bhagavatula, Venumadhav ; Taghivand, Mazhareddin ; Rudell, Jacques Christophe
Author_Institution :
Samsung Semicond. Inc., San Jose, CA, USA
Abstract :
This paper presents the design of a high fractional-bandwidth millimeter-wave band-pass distributed amplifier (BPDA) implemented in a 40 nm (LP) CMOS process. A high-order load impedance with multiple resonant elements is often used to realize wideband amplifiers. However, these implementations require the use of numerous inductors which occupy a prohibitively large amount of silicon area. A mirror-symmetric Norton transformation technique which reduces inductor component values for a wideband amplifier, allowing an area-efficient layout, is described in this paper. The BPDA consumes 34 mW while providing a power-gain of 7 dB from 24-to-54 GHz with less than 2 dB in-band gain-variation. The BPDA has a measured 77% fractional bandwidth, a +11 dBm in-band IIP3, and an in-band noise-figure less than 6.2 dB, while occupying an area of 0.15 mm2.
Keywords :
CMOS integrated circuits; distributed amplifiers; elemental semiconductors; inductors; integrated circuit layout; millimetre wave amplifiers; silicon; transforms; wideband amplifiers; CMOS band-pass distributed amplifier; IIP3; Si; area-efficient layout; frequency 24 GHz to 54 GHz; gain 7 dB; high-order load impedance; inductor; millimeter-wave band-pass distributed amplifier; mirror-symmetric Norton transforms; power 34 mW; size 40 nm; wideband amplifiers; Band-pass filters; CMOS integrated circuits; Impedance; Inductors; Transforms; Wideband; Band-pass filters; Norton transform; coplanar waveguide; distributed amplifier; millimeter-wave circuits;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2015.2408322
