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A current mode instrumentation amplifier based on the flipped voltage follower in 0.50 mu m CMOS

This work presents the design of a current mode instrumentation amplifier (CMIA) based on the flipped voltage follower (FVF), used as a double current sense mechanism. Unlike current state of the art, the proposed CMIA senses the sourced and sank current of the voltage follower buffer inside the Op-...

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Bibliographic Details
Published in:Analog integrated circuits and signal processing 2016-06, Vol.87 (3), p.389-398
Main Authors: Zamora-Mejia, Gregorio, Martinez-Castillo, Jaime, Rocha-Perez, Jose Miguel, Diaz-Sanchez, Alejandro
Format: Article
Language:English
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Summary:This work presents the design of a current mode instrumentation amplifier (CMIA) based on the flipped voltage follower (FVF), used as a double current sense mechanism. Unlike current state of the art, the proposed CMIA senses the sourced and sank current of the voltage follower buffer inside the Op-Amp inputs. The FVF low-impedance input node allows to monitor the sink current provided by the low-impedance drain node of the active load in the voltage follower buffer. Proposed CMIA uses Split-Length compensated op-amps at the inputs, and Nulling-Resistor compensation technique is used at the output Op-Amp. The proposed CMIA is able to provide continuous programmable gains from 16 to 56 dB by adjusting \(R_2/R_1\) resistor ratios from 6.3 to 630 respectively. A gain-bandwidth product of 1.23 MHz and a common mode rejection ratio (CMRR) of 96 dB is obtained. A -3 dB CMRR cutoff frequency of 115 Hz is observed in all gain cases. An overall CMIA power consumption of 315.5 mu W is measured; 95 mu A at plus or minus 1.65 V. The proposed CMIA was simulated and fabricated using 0.50 mu m ON-Semiconductor CMOS standard technology.
ISSN:0925-1030
1573-1979
DOI:10.1007/s10470-016-0731-3