Title :
An Active Approach for Charge Balancing in Functional Electrical Stimulation
Author :
Sooksood, K. ; Stieglitz, T. ; Ortmanns, M.
Author_Institution :
Inst. of Microelectron., Univ. of Ulm, Ulm, Germany
fDate :
6/1/2010 12:00:00 AM
Abstract :
Charge balancing is a major concern in functional electrical stimulation, since any excess charge accumulation over time leads to electrolysis with electrode dissolution and tissue destruction. This paper presents a new active approach for charge balancing using long-term offset regulation. Therefore, the electrode voltage is briefly monitored after each stimulation cycle and checked if it remains within a predefined voltage range. If not, an offset current is adjusted in order to track the biphasic current mismatch in upcoming stimulations. This technique is compared to a previously introduced active charge balancer as well as commonly used passive balancing techniques. Subsequently, the techniques are verified through experiments on a platinum black electrode in 0.9% saline solution.
Keywords :
bioelectric phenomena; biomedical electrodes; electric charge; electrolysis; neuromuscular stimulation; prosthetics; biphasic current mismatch; charge balancing; electrode dissolution; electrode voltage; electrolysis; excess charge accumulation; functional electrical stimulation; long-term offset regulation; passive balancing technique; platinum black electrode; saline solution; tissue destruction; Biomedical electrodes; Capacitors; Counting circuits; Electrochemical processes; Implants; Monitoring; Neuromuscular stimulation; Platinum; Pulse circuits; Voltage; Active biomedical implant; active charge balancing; charge balancing; functional electrical stimulation (FES); implantable biomedical devices;
Journal_Title :
Biomedical Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TBCAS.2010.2040277
