A wearable low-power and low-cost electromyographic sensor for arm prosthesis

MARCELO A. HABERMAN; DAISY KANG; MATÍAS OLIVA; RENÉ AYOROA; CLARA ALMIRÓN; VALENTÍN A. CATACORA; EUSTAQUIO A. MARTÍNEZ; ROCÍO MADOU

Piriápolis

Congreso; XXII Congreso Argentino de Bioingeniería y XI Jornadas de Ingeniería Clínica; 2020

Sociedad Argentina de Bioingeniería

This work presents the design considerations for an electromyographic (EMG) sensor destined to be integrated in a low-cost robotic arm prosthetic for below-elbow amputation, which is being developed in Paraguay by a multidisciplinary teamwork. The design exposed on this paper is addressed to optimize the embedded 14 bits ADC of the MSP432P401R microcontroller. It achieves the amplification and filtering of EMG signals with an input-referred noise of 1.35 µVRMS, and a CMRR greater than 95 dB, with a very low quiescent current consumption of 40 µA. The sensor also includes a common-mode feedback circuit that drives a reference electrode.