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A CMOS Highly Linear Digitally Programmable Active-RC Design Approach | IEEE Journals & Magazine | IEEE Xplore

A CMOS Highly Linear Digitally Programmable Active-RC Design Approach


Abstract:

A new approach providing the active-RC integrator with programmable time constant is proposed. An inherently linear current division network (CDN) preserving the high lin...Show More

Abstract:

A new approach providing the active-RC integrator with programmable time constant is proposed. An inherently linear current division network (CDN) preserving the high linearity property of the active RC technique while providing wide tuning characteristics is adopted. The proposed integrator provides wider tuning range, and higher tuning resolution accompanied with better linearity and/or reduced area than what could be obtained from capacitor and resistor banks. The proposed integrator uses two opamps per integrator just like its MOSFET-C counterpart but it inherently exhibits better linearity and wider tuning range particularly for low voltage supply. A reconfigurable filter exhibiting complex bandpass and normal lowpass responses is realized. Experimental results obtained from a 4th-order filter fabricated in a standard 0.18 μm CMOS process are given. The complex and lowpass filters achieve in-band spurious-free dynamic ranges (SFDRs) of about 70 dB and 71 dB for bandwidths of 1 MHz and 5.5 MHz, respectively.
Published in: IEEE Transactions on Circuits and Systems I: Regular Papers ( Volume: 58, Issue: 11, November 2011)
Page(s): 2636 - 2646
Date of Publication: 07 July 2011

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