Widely tunable low-pass gm ? C filter for biomedical applications
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Date
2019
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Publisher
Institution of Engineering and Technology journals@theiet.org
Abstract
This study presents a fourth-order, low-pass Butterworth transconductor–capacitor g<inf>m</inf> ? C filter with tunable bandwidth for biomedical signal processing front-ends. An architecture has been proposed for realising very low transconductance values with tunability. This transconductor architecture makes it possible to realise a fully differential filter without the need for explicit common-mode feedback circuit. The filter has two tuning schemes, a resistor-based tuning (Rtuning) and a switched transconductor-based tuning (D-tuning). With R-tuning, the bandwidth is adjustable between 1 and 70 Hz and with D-tuning, the tuning range is 30 mHz–100 Hz. The filter has been designed in united microelectronics corporation (UMC) 0.18 µm complementary metal–oxide–semiconductor process. In terms of figure-of-merit, the proposed filter is found to be on par with the filters reported in the literature. © The Institution of Engineering and Technology 2018
Description
Keywords
Bandwidth, Butterworth filters, Medical applications, Microelectronics, Signal processing, Transconductance, Tuning, Biomedical applications, Common mode feedback, Figure of merits, Fully differential, Semiconductor process, Switched transconductor, Transconductors, Tunable bandwidth, Low pass filters
Citation
IET Circuits, Devices and Systems, 2019, 13, 2, pp. 239-244