Jonathan B. Scott scite author profile

We describe the construction of a model of the electrode-electrolyte interface and surrounding electrolyte in the case of a platinum-electrode array intended for spinal-cord stimulation (SCS) application. We show that a finite, two-dimensional, resistor array provides a satisfactory model of the bulk electrolyte, and we identify the complexity required of that resistor array. The electrode-electrolyte interface is modelled in a fashion suitable for commonly-available, compact simulators using a nonlinear extension of the model of Franks (IEEE Trans. Biomed. Eng., vol. 52 , no. 7 , pp. 1295-1302, Jul. 2005) that incorporates diodes and a memristor. The electrode-electrolyte interface model accounts for the nonlinear current-overpotential characteristic and diffusion-limiting effects. We characterise a commercial, implantable, electrode array, fit the model to it, and show that the model successfully predicts subtle operational characteristics.

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Control of circuit distortion by the derivative superposition method [MMIC amplifier]

Webster

Scott

Haigh

1996

IEEE Microw. Guid. Wave Lett.

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Linearity characteristics of GaAs HBTs and the influence of collector design

Iwamoto

Asbeck

Low

et al. 2000

IEEE Trans. Microwave Theory Techn.

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Large-signal HBT model with improved collector transit time formulation for GaAs and InP technologies

Iwamoto

Root

Scott

et al.

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Jonathan B. Scott

Mixer-based, vector-corrected, vector signal/network analyzer offering 300kHz-20GHz bandwidth and traceable phase response

Compact Nonlinear Model of an Implantable Electrode Array for Spinal Cord Stimulation (SCS)

Control of circuit distortion by the derivative superposition method [MMIC amplifier]

Linearity characteristics of GaAs HBTs and the influence of collector design

Large-signal HBT model with improved collector transit time formulation for GaAs and InP technologies

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