0.3-V Nanopower Biopotential Low-Pass Filter

0.3-V Nanopower Biopotential Low-Pass Filter

Článek WoS

This paper presents a compact power-efficient CMOS fourth-order low-pass filter suitable for electrocardiogram (ECG) acquisition systems. The CMOS structure of the proposed filter utilize the bulkdriven technique and operates in subthreshold region to achieve extremely low-voltage supply (0.3V) and nanopower consumption (0.676 nW) for cut-off frequency of 100 Hz. The filter was designed and simulated using 0.18 mu m CMOS TSMC technology. The total input referred noise of the filter is 87 mu Vrms and the dynamic range is 58.1 dB. The filter offers the best figure of merit of 2.91 x 10(-14) J, the lowest power consumption and voltage supply, compared with the previous state-of-the-art nanowatt filter designs.

This paper presents a compact power-efficient CMOS fourth-order low-pass filter suitable for electrocardiogram (ECG) acquisition systems. The CMOS structure of the proposed filter utilize the bulkdriven technique and operates in subthreshold region to achieve extremely low-voltage supply (0.3V) and nanopower consumption (0.676 nW) for cut-off frequency of 100 Hz. The filter was designed and simulated using 0.18 mu m CMOS TSMC technology. The total input referred noise of the filter is 87 mu Vrms and the dynamic range is 58.1 dB. The filter offers the best figure of merit of 2.91 x 10(-14) J, the lowest power consumption and voltage supply, compared with the previous state-of-the-art nanowatt filter designs.

Biopotential filter; bulk-driven; low voltage; low power

Biopotential filter; bulk-driven; low voltage; low power

KULEJ, T.; KHATEB, F.; KUMNGERN, M.

2021

29.06.2020

IEEE

PISCATAWAY

2169-3536

IEEE Access

8

1, IF: 3.745

Spojené státy americké

119586

119593

8

https://ieeexplore.ieee.org/document/9127961

http://hdl.handle.net/11012/194763

0.3-V Nanopower Biopotential Low-Pass Filter
09127961