Title :
A Highly Linear Fully Integrated Powerline Filter for Biopotential Acquisition Systems
Author :
Alzaher, Hussain A. ; Tasadduq, Noman ; Mahnashi, Yaqub
Author_Institution :
Electr. Eng. Dept., King Fahd Univ. of Pet. & Miner., Dhahran, Saudi Arabia
Abstract :
Powerline interference is one of the most dominant problems in detection and processing of biopotential signals. This work presents a new fully integrated notch filter exhibiting high linearity and low power consumption. High filter linearity is preserved utilizing active-RC approach while IC implementation is achieved through replacing passive resistors by R-2R ladders achieving area saving of approximately 120 times. The filter design is optimized for low power operation using an efficient circuit topology and an ultra-low power operational amplifier. Fully differential implementation of the proposed filter shows notch depth of 43 dB (78 dB for 4th-order) with THD of better than -70 dB while consuming about 150 nW from 1.5 V supply.
Keywords :
bioelectric potentials; biomedical electronics; integrated circuits; medical signal detection; medical signal processing; network topology; notch filters; power amplifiers; power consumption; IC implementation; R-2R ladders; THD; active-RC approach; biopotential acquisition systems; biopotential signal detection; biopotential signal processing; circuit topology; filter design; full differential implementation; full integrated notch filter; high filter linearity; high linear full integrated powerline filter; low power consumption; notch depth; passive resistors; powerline interference; ultralow power operational amplifier; voltage 1.5 V; Active filters; Biomedical electronics; Interference; Active-RC filters; biopotential acquisition systems; powerline interference; ultra-low frequency filters; Amplifiers, Electronic; Biomedical Technology; Equipment Design;
Journal_Title :
Biomedical Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TBCAS.2013.2245506
