Investigation into the origin of the noise of surface electrodes

In the recording of biomedical signals, a significant noise component is introduced by the electrode. The magnitude of this noise is considerably higher than the equivalent thermal noise from the electrode impedance. As the noise in surface electrodes limits the resolution of biopotential recordings, it is important to understand its origin. It was found that the noise mainly originates in the electrolyte-skin interface and that it is highly dependent on the electrode gel used and the skin properties of the test subject. Depending on skin treatment, magnitudes between 1 and 20μVrms were measured among subjects. When the metal-electrolyte interface was allowed time to stabilise, electrodes of different metals measured face to face all showed a negligibly small noise magnitude (<1μVrms). In pre-gelled electrodes, where the metal-electrolyte interface has stabilised, no difference in noise properties was found between Ag−AgCl electrodes and other metals when measured on the skin. In subjects at rest, the contribution of EMG signals to the total noise level was shown to be negligibly small compared with the noise contribution of the electrolyte-skin interface. The magnitude of the noise of electrodes appeared to be inversely proportional to the square root of the area of the electrode on the skin.

[1]  John H. Busser,et al.  Principles of Applied Biomedical Instrumentation , 1968 .

[2]  L. Geddes Electrodes and the measurement of bioelectric events , 1972 .

[3]  J G Webster,et al.  60-HZ interference in electrocardiography. , 1973, IEEE transactions on bio-medical engineering.

[4]  Schoenberg Aa,et al.  Effects of dc bias currents on ECG electrodes. , 1979 .

[5]  J. Rosell,et al.  Skin impedance from 1 Hz to 1 MHz , 1988, IEEE Transactions on Biomedical Engineering.

[6]  C. A. Grimbergen,et al.  A method for the measurement of the properties of individual electrode-skin interfaces and the implications of the electrode properties for preamplifier design , 1992, 1992 14th Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[7]  B R Eggins Skin contact electrodes for medical applications. , 1993, The Analyst.

[8]  Dry electrode based on nasicon ceramic for surface biopotential measurements : skin-electrode impedance and noise , 1995 .

[9]  A Searle,et al.  Real time impedance plots with arbitrary frequency components , 1999, Physiological measurement.

[10]  R Pallás-Areny,et al.  Ag-AgCl electrode noise in high-resolution ECG measurements. , 2000, Biomedical instrumentation & technology.

[11]  E. Novakov,et al.  Noise of surface bio-potential electrodes based on NASICON ceramic and Ag−AgCl , 1996, Medical and Biological Engineering and Computing.

[12]  E. McAdams,et al.  Factors affecting electrode-gel-skin interface impedance in electrical impedance tomography , 1996, Medical and Biological Engineering and Computing.

[13]  H. P. Schwan,et al.  Linear and nonlinear electrode polarization and biological materials , 2006, Annals of Biomedical Engineering.

[15]  C A Grimbergen,et al.  High-quality recording of bioelectric events , 1991, Medical and Biological Engineering and Computing.

[16]  R. N. Scott,et al.  Noise characteristics of stainless-steel surface electrodes , 1991, Medical and Biological Engineering and Computing.