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A 0.016-mm ^{2} 144- \mu W Three-Stage Amplifier Capable of Driving 1-to-15 nF Capacitive Load With > 0.95-MHz GBW

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4 Author(s)
Zushu Yan ; State Key Lab. of Analog & Mixed-Signal VLSI, Univ. of Macau, Macao, China ; Pui-In Mak ; Law, M. ; Martins, R.P.

A 0.016-mm2 144-μ W three-stage amplifier capable of driving 1-to-15-nF capacitive load (CL) is described. It is optimized via combining current-buffer Miller compensation and parasitic-pole cancellation (via an active left-half-plane zero circuit) to extend the CL drivability with small power and area. Fabricated in 0.35-μ m CMOS, the minimum gain-bandwidth product (GBW), slew rate (SR) and phase margin measured over 1-to-15-nF CL are 0.95 MHz, 0.22 V/ μs and 52.3 °, respectively. The results at 15-nF CL correspond to 2.02x-improved small-signal FOMS (=GBW·CL/Power), and 1.44x-improved large-signal FOML (=SR·CL/Power) with respect to prior art. The sizing and optimization are systematically guided by Local Feedback Loop Analysis. It is an insightful control-centric method allowing the pole-zero placements to be more analyzable and comparable at the system level.

Published in:

Solid-State Circuits, IEEE Journal of  (Volume:48 ,  Issue: 2 )

Date of Publication:

Feb. 2013

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