Low power architecture and circuit techniques for high boost wideband Gm-C filters
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Date
2007-09-17
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Texas A&M University
Abstract
With the current trend towards integration and higher data rates, read channel
design needs to incorporate significant boost for a wider signal bandwidth. This
dissertation explores the analog design problems associated with design of such
'Equalizing Filter' (boost filter) for read channel applications.
Specifically, a 330MHz, 5th order Gm-C continuous time lowpass filter with
24dB boost is designed. Existing architectures are found to be unsuitable for low power,
wideband and high boost operation. The proposed solution realizes boosting zeros by
efficiently combining available transfer functions associated with all nodes of cascaded
biquad cells. Further, circuit techniques suitable for high frequency filter design are
elaborated such as: application of the Gilbert cell as a variable transconductor and a new
Common-Mode-Feedback (CMFB) error amplifier that improves common mode
accuracy without compromising on bandwidth or circuit complexity. A prototype is
fabricated in a standard 0.35mm CMOS process. Experimental results show -41dB of
IM3 for 250mV peak to peak swing with 8.6mW/pole of power dissipation.
Description
Keywords
Gm-C, Low power