A Wideband IM3 Cancellation Technique for CMOS ${\\bf \\Pi }$ - and T-Attenuators

Author

Wei Cheng ; Oude Alink, Mark S. ; Annema, A.J. ; Wienk, G.J.M. ; Nauta, Bram

Author_Institution

Qualcomm, San Diego, CA, USA

Volume

48

Issue

2

fYear

2013

fDate

Feb. 2013

Firstpage

358

Lastpage

368

Abstract

A wideband IM3 cancellation technique for CMOS attenuators is presented. With proper transistor width ratios, the dominant distortion currents of transistor switches cancel each other. As a result, a high IIP3 robust to PVT variations can be achieved without using large transistors. Two prototypes in a 0.16 μm standard bulk CMOS process are presented: a Π-attenuator with four discrete settings obtains +26 dBm IIP3 and +3 dBm 1 dB-compression point (CP) for 50 MHz to 5 GHz with only 0.0054 mm² active area, and a similar T-attenuator system which obtains +27 dBm IIP3 and +13 dBm CP for 50 MHz to 5.6 GHz with only 0.0067 mm² active area.

Keywords

CMOS integrated circuits; attenuators; CMOS attenuators; PVT variation; T attenuator system; dominant distortion current; standard bulk CMOS process; transistor switches; transistor width ratio; wideband IM3 cancellation technique; Attenuation; Attenuators; Capacitance; Linearity; Nonlinear distortion; Resistors; Transistors; Attenuator; CMOS; IM3 cancellation; intermodulation distortion; linearity;

fLanguage

English

Journal_Title

Solid-State Circuits, IEEE Journal of

Publisher

ieee

ISSN

0018-9200

Type

jour

DOI

10.1109/JSSC.2012.2223951

Filename

6419826

A Wideband IM3 Cancellation Technique for CMOS - and T-Attenuators

Wei Cheng ; Oude Alink, Mark S. ; Annema, A.J. ; Wienk, G.J.M. ; Nauta, Bram

jour

A Wideband IM3 Cancellation Technique for CMOS ${\\bf \\Pi }$ - and T-Attenuators