Artículos de revistas
High gain driven right leg circuit for dry electrode systems
Fecha
2017-01Registro en:
Guerrero, Federico Nicolás; Spinelli, Enrique Mario; High gain driven right leg circuit for dry electrode systems; Elsevier; Medical Engineering & Physics; 39; 1-2017; 117-122
1350-4533
CONICET Digital
CONICET
Autor
Guerrero, Federico Nicolás
Spinelli, Enrique Mario
Resumen
This paper presents an improved driven right leg (DRL) circuit compensation together with a practical implementation. The proposed design allows to increase common mode voltage attenuation compared with the widely used dominant pole compensation while maintaining the same proven stability margin and design criteria, and requiring only a modification of its passive feedback network. A sample implementation of the proposed DRL was obtained estimating the values of interference model parameters for a dry electrode measurement system. A dominant pole compensated DRL with the same stability margin was also implemented in order to experimentally validate the proposed design against this established alternative. Measurements were conducted under both controlled and uncontrolled interference conditions. The proposed compensation experimentally demonstrated achieving a better reduction of power line harmonics, with a peak comparative improvement of around 18 dB at 50 Hz.