Comparison of Transconductance Reduction Techniques for the Design of a Very Large Time-Constant CMOS Integrator

摘要

This paper compares three transconductance (gm) reduction techniques in terms of analog mismatch and total achievable amount of gm reduction. The techniques investigated are current division, current cancellation, and cascade of gm-1/gm stages. Each of these is applied to the design of a very long time-constant integrator for use in a neural recording bladder control implant. Extensive Monte-Carlo simulations in a 0.35驴m CMOS process showed that for the target gm of about 50pA/V, the current division technique is the best option as it is insensitive to analog mismatch when used in closed-loop configuration. The achievable gm with the current cancellation technique is limited to about 65nA/V, whereas the cascade of gm-1/gm stages is extremely sensitive to DC offsets.