论文信息 - Variable Inductance Planar Spiral Inductors and CMOS Wideband Amplifiers with Inductive Peaking

Variable Inductance Planar Spiral Inductors and CMOS Wideband Amplifiers with Inductive Peaking

In this paper, a complete set of variable inductance (VI) planar spiral inductors with MOSFET switch were characterized and modeled for the first time. These VI inductors can be used to optimize the performances of the CMOS wideband low-noise amplifiers (LNAs) with inductive peaking, and to implement low-phase noise voltage-controlled oscillators (VCOs), etc.. Moreover, the experimental results show that the series inductive peaking can effectively improve the bandwidth of the CMOS wideband LNAs. For a CMOS wideband LNA with a 0.58 nH peaking inductor, a 74.2% (from 3.1 GHz to 5.4 GHz) increase in bandwidth were achieved. The measured noise figures (NF) are 2.2 dB at 1 GHz and 4.0 dB at 6 GHz. The measured input third-order intercepting point (IIP3) is -3 dBm at 3 GHz. These results show that the performances of the CMOS wideband LNAs can be improved by inductive peaking, which can be optimized by our developed VI inductors.

Yo-Sheng Lin | Shey-Shi Lu | Hsiao-Bin Liang | Ke-Hou Chen | Jia-lun Chen

[1] D. J. Allstot,et al. A fully integrated 0.5-5.5 GHz CMOS distributed amplifier , 2000 .

[2] Sung-Mo Kang,et al. An analysis of inductive peaking in photoreceiver design , 1992 .

[3] B. Razavi,et al. A 900 MHz/1.8 GHz CMOS receiver for dual band applications , 1998, 1998 IEEE International Solid-State Circuits Conference. Digest of Technical Papers, ISSCC. First Edition (Cat. No.98CH36156).

[4] Piljae Park,et al. Variable inductance multilayer inductor with MOSFET switch control , 2004 .

[5] T.S. Kalkur,et al. High-speed current-mode logic amplifier using positive feedback and feed-forward source-follower techniques for high-speed CMOS I/O buffer , 2005, IEEE Journal of Solid-State Circuits.

[6] Dong-Young Chang,et al. Sub-1-V design techniques for high-linearity multistage/pipelined analog-to-digital converters , 2005, IEEE Transactions on Circuits and Systems I: Regular Papers.

[7] Shey-Shi Lu,et al. A 2.4/3.5/4.9/5.2/5.7-GHz concurrent multiband low noise amplifier using InGaP/GaAs HBT technology , 2004 .

[8] Sang-Gug Lee,et al. An ultra-wideband CMOS low noise amplifier for 3-5-GHz UWB system , 2005, IEEE Journal of Solid-State Circuits.